https://www.astro-init.top/api.php?action=feedcontributions&feedformat=atom&user=Dg1200astro-init - 用户贡献 [zh-cn]2026-04-29T11:54:50Z用户贡献MediaWiki 1.32.2https://www.astro-init.top/index.php?title=2023-2024%E5%AD%A6%E5%B9%B4CNAO%E5%86%B3%E8%B5%9B%E9%80%89%E6%8B%A9%E9%A2%98&diff=27732023-2024学年CNAO决赛选择题2025-04-20T01:08:15Z<p>Dg1200:</p>
<hr />
<div>==题目==<br />
1.(仅低年组)目前天文学研究的热点集中在以下哪个分支学科( )?<br />
<br />
(A)天体测量学 (B)天体力学 (C)天体物理学 (D)天体化学<br />
<br />
2.(仅低年组)以下四座城市的地方时哪个更接近“北京时间”( )?<br />
<br />
(A)西安 (B)北京 (C)上海 (D)杭州<br />
<br />
3. 以下那个天体距离我们最近( )?<br />
<br />
(A)M20 (B)M31 (C)M81 (D)M101<br />
<br />
4. 全天看上去最亮的恒星位于( )。<br />
<br />
(A)船底座 (B)天琴座 (C)小熊座 (D)大犬座<br />
<br />
5. 图1箭头指的是哪种太阳活动( )?<br />
<gallery>CNAO2024决赛图1.jpg</gallery><br />
(A)黑子 (B)暗条 (C)针状体 (D)耀斑<br />
<br />
6. 夏至的时候,如果你在北京(166°E,40°N),可以看到太阳于( )方升起。<br />
<br />
(A)东北 (B)正东 (C)东南 (D)西北<br />
<br />
7. 以下我国古代天文学家按年代先后顺序排序正确的是( )。<br />
<br />
①祖冲之 ②郭守敬 ③张衡 ④徐光启 ⑤沈括<br />
<br />
(A)①②④③⑤ (B)③①⑤②④ <br />
<br />
(C)③①②⑤④ (D)③⑤①②④<br />
<br />
8. 当我们观测遥远的恒星时,如果中间有其它恒星或行星(透镜天体)穿过,由于引力的光汇聚作用,观测的背景恒星亮度增加,即微引力透镜效应。利用微引力透镜寻找系外行星,有一个非常重要的时标参数τ,可以大致描述信号的长短,它与透镜天体质量的平方根成正比。一般来说,恒星质量的透镜天体引发的微引力透镜时标一般在一个月左右,那么木星质量的透镜天体导致的事件时标为( )左右。<br />
<br />
(A)1年 (B)1月 (C)1天 (D)1小时<br />
<br />
9. 若想从太阳系外某颗黄纬为0的恒星处,观察到因为地球带来的视向速度变化,则光谱仪的分辨率应道至少约为( )。<br />
<br />
(A)3×10<sup>5</sup> (B)3×10<sup>7</sup> (C)3×10<sup>9</sup> (D)3×10<sup>11</sup><br />
<br />
10. 今年5月3日,( )由长征五号火箭从海南文昌发射中心成功发射。<br />
<br />
(A)嫦娥六号 (B)神舟十八号 (C)天问二号 (D)中国巡天空间望远镜(CSST)<br />
<br />
11.(仅高年组)我们认为现在地球围绕太阳的轨道半径为1au的圆轨道。如果现在地球的轨道速度突然变为原先的1.2倍,则新轨道的偏心率为( )。<br />
<br />
(A)0.2 (B)0.4 (C)0.6 (D)0.8<br />
<br />
12.(仅高年组)在宇宙学中,对同一个天体的距离有不同的定义方式。一般常用的有共动距离、光度距离、角直径距离。如果观测到一个红移z=5的天体,这三个数值从小到大排序是( )。<br />
<br />
(A)角直径距离、共动距离、光度距离 <br />
<br />
(B)共动距离、光度距离、角直径距离 <br />
<br />
(C)光度距离、角直径距离、共动距离 <br />
<br />
(D)差距不大,实际计算时可忽略<br />
<br />
==答案==<br />
CDADB ABCCA BA<br />
<br />
==计算题解答==<br />
<br />
[[2024CNAO决赛选择题第9题解答]]<br />
<br />
<br /></div>Dg1200https://www.astro-init.top/index.php?title=2023-2024%E5%AD%A6%E5%B9%B4CNAO%E5%86%B3%E8%B5%9B%E9%80%89%E6%8B%A9%E9%A2%98&diff=27722023-2024学年CNAO决赛选择题2025-04-20T01:07:08Z<p>Dg1200:</p>
<hr />
<div>==题目==<br />
1.(仅低年组)目前天文学研究的热点集中在以下哪个分支学科( )?<br />
<br />
(A)天体测量学 (B)天体力学 (C)天体物理学 (D)天体化学<br />
<br />
2.(仅低年组)以下四座城市的地方时哪个更接近“北京时间”( )?<br />
<br />
(A)西安 (B)北京 (C)上海 (D)杭州<br />
<br />
3. 以下那个天体距离我们最近( )?<br />
<br />
[[文件:CNAO2024决赛图1.jpg|缩略图|图1]](A)M20 (B)M31 (C)M81 (D)M101<br />
<br />
4. 全天看上去最亮的恒星位于( )。<br />
<br />
(A)船底座 (B)天琴座 (C)小熊座 (D)大犬座<br />
<br />
5. 图1箭头指的是哪种太阳活动( )?<br />
<br />
(A)黑子 (B)暗条 (C)针状体 (D)耀斑<br />
<br />
6. 夏至的时候,如果你在北京(166°E,40°N),可以看到太阳于( )方升起。<br />
<br />
(A)东北 (B)正东 (C)东南 (D)西北<br />
<br />
7. 以下我国古代天文学家按年代先后顺序排序正确的是( )。<br />
<br />
①祖冲之 ②郭守敬 ③张衡 ④徐光启 ⑤沈括<br />
<br />
(A)①②④③⑤ (B)③①⑤②④ <br />
<br />
(C)③①②⑤④ (D)③⑤①②④<br />
<br />
8. 当我们观测遥远的恒星时,如果中间有其它恒星或行星(透镜天体)穿过,由于引力的光汇聚作用,观测的背景恒星亮度增加,即微引力透镜效应。利用微引力透镜寻找系外行星,有一个非常重要的时标参数τ,可以大致描述信号的长短,它与透镜天体质量的平方根成正比。一般来说,恒星质量的透镜天体引发的微引力透镜时标一般在一个月左右,那么木星质量的透镜天体导致的事件时标为( )左右。<br />
<br />
(A)1年 (B)1月 (C)1天 (D)1小时<br />
<br />
9. 若想从太阳系外某颗黄纬为0的恒星处,观察到因为地球带来的视向速度变化,则光谱仪的分辨率应道至少约为( )。<br />
<br />
(A)3×10<sup>5</sup> (B)3×10<sup>7</sup> (C)3×10<sup>9</sup> (D)3×10<sup>11</sup><br />
<br />
10. 今年5月3日,( )由长征五号火箭从海南文昌发射中心成功发射。<br />
<br />
(A)嫦娥六号 (B)神舟十八号 (C)天问二号 (D)中国巡天空间望远镜(CSST)<br />
<br />
11.(仅高年组)我们认为现在地球围绕太阳的轨道半径为1au的圆轨道。如果现在地球的轨道速度突然变为原先的1.2倍,则新轨道的偏心率为( )。<br />
<br />
(A)0.2 (B)0.4 (C)0.6 (D)0.8<br />
<br />
12.(仅高年组)在宇宙学中,对同一个天体的距离有不同的定义方式。一般常用的有共动距离、光度距离、角直径距离。如果观测到一个红移z=5的天体,这三个数值从小到大排序是( )。<br />
<br />
(A)角直径距离、共动距离、光度距离 <br />
<br />
(B)共动距离、光度距离、角直径距离 <br />
<br />
(C)光度距离、角直径距离、共动距离 <br />
<br />
(D)差距不大,实际计算时可忽略<br />
<br />
==答案==<br />
CDADB ABCCA BA<br />
<br />
==计算题解答==<br />
<br />
[[2024CNAO决赛选择题第9题解答]]<br />
<br />
<br /></div>Dg1200https://www.astro-init.top/index.php?title=2024-2025%E5%AD%A6%E5%B9%B4CNAO%E9%A2%84%E8%B5%9B%E9%80%89%E6%8B%A9%E9%A2%98&diff=27702024-2025学年CNAO预赛选择题2025-04-09T15:58:48Z<p>Dg1200:</p>
<hr />
<div>==题目==<br />
1、 今天的月相是( )。<br />
<br />
A. 新月<br />
<br />
B. 上弦月<br />
<br />
C. 满月<br />
<br />
D. 下弦月<br />
<br />
2、 以下哪个星座是黄道星座?( )<br />
<br />
A. 长蛇座<br />
<br />
B. 巨蛇座<br />
<br />
C. 蛇夫座<br />
<br />
D. 水蛇座<br />
<br />
3、 以下我国的光学天文台(站)中地理纬度最靠南的是( )。<br />
<br />
A. 青海冷湖观测站<br />
<br />
B. 四川稻城无名山观测站<br />
<br />
C. 国家天文台兴隆观测站<br />
<br />
D. 台湾鹿林天文台<br />
<br />
4、 以下哪个天体不属于太阳系?( )<br />
<br />
A. 冥王星<br />
<br />
B. 谷神星<br />
<br />
C. 比邻星<br />
<br />
D. 阋神星<br />
<br />
5、 以下哪个节气时太阳直射点的移动方向由南转向北?( )<br />
<br />
A. 春分<br />
<br />
B. 夏至<br />
<br />
C. 秋分<br />
<br />
D. 冬至<br />
<br />
6、 仙女星系、 大麦哲伦星系、 小麦哲伦星系, 以上三个星系肉眼可见的有几个?( )<br />
<br />
A. 0个<br />
<br />
B. 1个<br />
<br />
C. 2个<br />
<br />
D. 3个<br />
<br />
7、 2025 年在地球上观测不到以下哪类天象?( )<br />
<br />
A. 日全食<br />
<br />
B. 月全食<br />
<br />
C. 流星雨<br />
<br />
D. 月掩火星<br />
<br />
8、 再发新星北冕座 T(T CrB) 爆发周期大约是( )年。<br />
<br />
A. 11<br />
<br />
B. 33<br />
<br />
C. 80<br />
<br />
D. 120<br />
<br />
9、 以下恒星中赤纬最靠北的是( )。<br />
<br />
A. 老人星(船底座α)<br />
<br />
B. 水委一(波江座α)<br />
<br />
C. 海石一(船底座ε)<br />
<br />
D. 十字架二(南十字座α)<br />
<br />
10、 我想去赶海,潮水退得最厉害的时候更容易找到贝壳等有趣的生物,请问在农历哪天去最好呢?( )<br />
<br />
A. 初三<br />
<br />
B. 初九<br />
<br />
C. 十六<br />
<br />
D. 廿二<br />
<br />
11、 2025 年 3 月 23 日,土星光环侧面对着地球,看上去好像光环消失了一样,下一次土星光环“消失” 是哪一年?( )<br />
<br />
A. 2029年<br />
<br />
B. 2032年<br />
<br />
C. 2039年<br />
<br />
D. 2042年<br />
<br />
12、 如果想测量天空中的10°,伸直手臂用以下哪种手势最接近?( )<br />
<br />
A.<br />
<gallery><br />
2025CNAO-预赛-12-A.png<br />
</gallery><br />
<br />
B. <br />
<gallery><br />
2025CNAO-预赛-12-B.png<br />
</gallery><br />
<br />
C. <br />
<gallery><br />
2025CNAO-预赛-12-C.png<br />
</gallery><br />
<br />
D. <br />
<gallery><br />
2025CNAO-预赛-12-D.png<br />
</gallery><br />
<br />
13、 下图是一张太阳的实拍照片,箭头所指的黑色斑点最有可能是什么?( )<br />
<br />
<gallery><br />
2025CNAO-预赛-13.png<br />
</gallery><br />
<br />
A. 地球大气中的漂浮物<br />
<br />
B. 太阳黑子<br />
<br />
C. 金星<br />
<br />
D. 水星<br />
<br />
14、 我们知道木星是一颗气体行星,主要成分为氢和氦,与恒星的组成成分类似。氢核聚变使得恒星能够发光发热。 那么,木星为什么不能成为一颗恒星呢?( )<br />
<br />
A. 体积不够大<br />
<br />
B. 质量不够大<br />
<br />
C. 氢的比例少<br />
<br />
D. 没有核反应催化剂<br />
<br />
15、 地球上发现最多的陨石类型是( )。<br />
<br />
A. 普通球粒陨石<br />
<br />
B. 无球粒陨石<br />
<br />
C. 铁陨石<br />
<br />
D. 中铁陨石<br />
<br />
16、 我国“天问二号”即将对太阳系的两颗小天体进行探测,其中一颗位于小行星主带内,它是一颗( )。<br />
<br />
A. S 型小行星<br />
<br />
B. C 型小行星<br />
<br />
C. 彗星<br />
<br />
D. M 型小行星<br />
<br />
17、 黄金是一种化学性质非常稳定的贵金属,金元素的原子序数为79,恒星中的核聚变反应不能合成金,只能通过更剧烈的天体过程合成。现在科学家认为,金元素主要是通过以下哪种过程产生的?( )<br />
<br />
A. 超新星爆发<br />
<br />
B. 中子星并合<br />
<br />
C. 潮汐瓦解事件<br />
<br />
D. 宇宙大爆炸<br />
<br />
18、以下四颗行星中,( )属于太阳系中具有全球性磁场的类地行星。<br />
<br />
A. 火星<br />
<br />
B. 金星<br />
<br />
C. 水星<br />
<br />
D. 土星<br />
<br />
19、 恒星的光度主要取决于其表面温度和半径。假设两颗恒星的质量相同,恒星 A 的半径是恒星 B 的两倍,而 A 的表面温度是 B 的一半。那么,恒星 A 的光度是恒星 B 的多少倍?( )<br />
<br />
A. 1/4<br />
<br />
B. 1/2<br />
<br />
C. 2<br />
<br />
D. 4<br />
<br />
20、 四川稻城无名山观测站,坐标为东经 100°,北纬 29°。今年劳动节午夜,下面哪个天体适合在该台址观测?( )<br />
<br />
A.土星 RA=23h54m,Dec=-02d48m <br />
<br />
B.昴星团 RA=03h46m,Dec=+24d11m<br />
<br />
C.南门二 RA=14h39m,Dec=-60d48m <br />
<br />
D.大角星 RA=14h15m,Dec=+19d09m<br />
<br />
21、宇宙线是来自外太空的高能次原子粒子的总称,其最主要的成分是( )。<br />
<br />
A. 电子 <br />
<br />
B. 中子 <br />
<br />
C. 质子 <br />
<br />
D. 中微子<br />
<br />
22、北京天文馆院区内放置的赤道式日晷,晷面上标注的是中国传统时辰。在芒种这一天(晴天),晷针影子是( )。<br />
<br />
A. 由寅顺时针转向戌 <br />
<br />
B. 由辰顺时针转向戌<br />
<br />
C. 由辰顺时针转向申 <br />
<br />
D. 由辰逆时针转向申<br />
<br />
23、天狼星是一个双星系统,由一颗主序星天狼星 A 和一颗白矮星天狼星 B 组成,其中后者是人类最早发现的白矮星之一,其光度在整个天狼星系统中仅占万分之一。已知天狼星的视星等约为-1.5 等,距离地球 8.6 光年,估算天狼星 B 的绝对星等为( )。<br />
<br />
A. 11.5 等 <br />
<br />
B. 8.5 等 <br />
<br />
C. 5.5 等 <br />
<br />
D. 1.5 等<br />
<br />
24、以下说法不正确的是( )。<br />
<br />
A. 2024 年1月顺利升空的天关卫星(原名爱因斯坦探针卫星),依托“龙虾眼”宽视场 X 射线聚焦成像技术,已经探测到多种类型的暂现天体。<br />
<br />
B. 2024年6月,嫦娥六号探测器成功完成世界首次月球背面采样,带回了珍贵的1935.3克月壤样本。<br />
<br />
C. 2024 年2月,高海拔宇宙线观测站( LHAASO)国际合作组宣布发现了一颗巨型超高能伽马射线泡,证认了首个超级宇宙线起源天体。<br />
<br />
D. 2024 年7月,我国科研人员首次在嫦娥五号带回的月壤样品中发现了液态水。<br />
<br />
25、遥远天体发出的电磁辐射由于宇宙自身膨胀而频率降低、波长变长,表现为光谱的谱线朝红端(波长更长方向)移动了一段距离,该现象称为宇宙学红移。请问在可见光的 g 波段(波长范围 400~550nm),我们可以探测到红移为 3 的年轻星系产生的哪条谱线(不考虑相对论效应)?( )<br />
<br />
A. Lyα (121.6nm) <br />
<br />
B. MgII(279.8nm) <br />
<br />
C. [OII](372.7nm) <br />
<br />
D. Hβ(486.8nm)<br />
<br />
26、 交食计算是中国古代历法的重要内容,历法准确的情况下,日食通常发生在哪一天?( )<br />
<br />
A. 朔日 <br />
<br />
B. 朏日 <br />
<br />
C. 望日 <br />
<br />
D. 晦日<br />
<br />
27、 北京时间2025年3月5日会发生月掩昴星团,当日在北京观测月球上中天的时间约为( )。<br />
<br />
A. 05:00 <br />
<br />
B. 11:00 <br />
<br />
C. 17:00 <br />
<br />
D. 23:00<br />
<br />
28、 下面哪种天文仪器不会因地理纬度的变化而影响其正常使用?( )<br />
<br />
A. 简仪 <br />
<br />
B. 地平式日晷 <br />
<br />
C. 浑仪 <br />
<br />
D. 象限仪<br />
<br />
29、温度不均匀的介质会改变光线的传播方向,降低望远镜的分辨率。在一般的低海拔地区,由于夜间大气层湍流的影响,进行长时间深空天体曝光单张拍摄的望远镜在焦距不变的情况下,口径增大到多少之后便无法再有效提升其单张图像的角分辨率?( )<br />
<br />
A. 约40mm <br />
<br />
B. 约150mm <br />
<br />
C. 约350mm <br />
<br />
D. 约1000mm<br />
<br />
30、在一个较长的时段内,对满月发生的农历时间取平均。该平均满月时刻最接近于( )。<br />
<br />
A. 农历十五 12 时 <br />
<br />
B. 农历十五 18 时 <br />
<br />
C. 农历十六 0 时 <br />
<br />
D. 农历十六 6 时<br />
<br />
31、 以德国物理学家命名的夫琅和费线是一系列强吸收线,请问下面哪个不属于夫琅和费线命名?( )<br />
<br />
A. He <br />
<br />
B. D1 <br />
<br />
C. H <br />
<br />
D. h<br />
<br />
32、下列哪个探测器可以探测到能量在 10<sup>15</sup>eV 量级的光子?( )<br />
<br />
A. 500 米口径球面射电望远镜(FAST) <br />
<br />
B. 高海拔宇宙线观测站(LHAASO)<br />
<br />
C.硬 X 射线调制望远镜(HXMT)<br />
<br />
D.暗物质粒子探测卫星(DAMPE)<br />
<br />
33、岁差会导致恒星坐标发生变化。其中哪种坐标变化最小?( )<br />
<br />
A. 赤经 <br />
<br />
B. 赤纬 <br />
<br />
C. 黄经 <br />
<br />
D. 黄纬<br />
<br />
34、每年 12 月中旬的夜晚,随着双子座流星雨辐射点升高,可以观测到的群内流星数量也会增加。流星的数量和辐射角高度的增长关系是一种什么曲线?( )<br />
<br />
A. 直线 <br />
<br />
B. 二次曲线 <br />
<br />
C. 对数曲线 <br />
<br />
D. 正弦曲线<br />
<br />
35、在本次预赛的日期,以下哪颗恒星的周年光行差数值最大?( )<br />
<br />
A. 毕宿五 <br />
<br />
B. 角宿一 <br />
<br />
C. 北河三 <br />
<br />
D. 心宿二<br />
<br />
==答案==<br />
<br />
ACDCD DACAC CBCBA CBCAD CAADA ACDBD ABDDB<br />
<br />
特别说明:第十题A选项和C选项均按正确处理</div>Dg1200https://www.astro-init.top/index.php?title=CNAO&diff=2769CNAO2025-04-06T08:50:14Z<p>Dg1200:</p>
<hr />
<div>==简介==<br />
CNAO,全称为Chinese National Astronomy Olympiad(全国中学生天文奥林匹克竞赛,2019年应教育部要求改名为全国中学生天文知识竞赛)自创办来已经举办十四届,是全国级别最高的天文竞赛。CNAO分为预赛、决赛和选拔赛,其中预赛于每年的三月下旬举办,决赛与选拔赛共同于每年四月下旬或五月上旬举办。CNAO根据选手的年龄不同划分为高年组和低年组两个组别其试题难度有所不同。CNAO已经成为全国青少年天文爱好者交流的重要平台,也是每年选拔各项国际天文奥赛(IOAA、IAO、APAO)中国队的唯一渠道。2019年,CNAO正式成为教育部门允许的29项全国性竞赛之一(属科技创新类)。CNAO2021因疫情未举办。<br />
<br />
==往届赛事==<br />
[[CNAO2003]]<br />
<br />
[[CNAO2004]]<br />
<br />
[[CNAO2005]]<br />
<br />
[[CNAO2006]]<br />
<br />
[[CNAO2007]]<br />
<br />
[[CNAO2008]]<br />
<br />
[[CNAO2009]]<br />
<br />
[[CNAO2010]]<br />
<br />
[[CNAO2011]]<br />
<br />
[[CNAO2012]]<br />
<br />
[[CNAO2013]]<br />
<br />
[[CNAO2014]]<br />
<br />
[[CNAO2015]]<br />
<br />
[[CNAO2016]]<br />
<br />
[[CNAO2017]]<br />
<br />
[[CNAO2018]]<br />
<br />
[[CNAO2019]]<br />
<br />
[[CNAO2020]]<br />
<br />
[[CNAO2022]]<br />
<br />
[[CNAO2023]]<br />
<br />
[[CNAO2024]]<br />
<br />
[[CNAO2025]]<br />
<br />
[[Category:按赛事索引]]</div>Dg1200https://www.astro-init.top/index.php?title=2024-2025%E5%AD%A6%E5%B9%B4CNAO%E9%A2%84%E8%B5%9B%E9%80%89%E6%8B%A9%E9%A2%98&diff=27672024-2025学年CNAO预赛选择题2025-04-03T12:50:26Z<p>Dg1200:</p>
<hr />
<div>==题目==<br />
1、 今天的月相是( )。<br />
<br />
A. 新月<br />
<br />
B. 上弦月<br />
<br />
C. 满月<br />
<br />
D. 下弦月<br />
<br />
2、 以下哪个星座是黄道星座?( )<br />
<br />
A. 长蛇座<br />
<br />
B. 巨蛇座<br />
<br />
C. 蛇夫座<br />
<br />
D. 水蛇座<br />
<br />
3、 以下我国的光学天文台(站)中地理纬度最靠南的是( )。<br />
<br />
A. 青海冷湖观测站<br />
<br />
B. 四川稻城无名山观测站<br />
<br />
C. 国家天文台兴隆观测站<br />
<br />
D. 台湾鹿林天文台<br />
<br />
4、 以下哪个天体不属于太阳系?( )<br />
<br />
A. 冥王星<br />
<br />
B. 谷神星<br />
<br />
C. 比邻星<br />
<br />
D. 阋神星<br />
<br />
5、 以下哪个节气时太阳直射点的移动方向由南转向北?( )<br />
<br />
A. 春分<br />
<br />
B. 夏至<br />
<br />
C. 秋分<br />
<br />
D. 冬至<br />
<br />
6、 仙女星系、 大麦哲伦星系、 小麦哲伦星系, 以上三个星系肉眼可见的有几个?( )<br />
<br />
A. 0个<br />
<br />
B. 1个<br />
<br />
C. 2个<br />
<br />
D. 3个<br />
<br />
7、 2025 年在地球上观测不到以下哪类天象?( )<br />
<br />
A. 日全食<br />
<br />
B. 月全食<br />
<br />
C. 流星雨<br />
<br />
D. 月掩火星<br />
<br />
8、 再发新星北冕座 T(T CrB) 爆发周期大约是( )年。<br />
<br />
A. 11<br />
<br />
B. 33<br />
<br />
C. 80<br />
<br />
D. 120<br />
<br />
9、 以下恒星中赤纬最靠北的是( )。<br />
<br />
A. 老人星(船底座α)<br />
<br />
B. 水委一(波江座α)<br />
<br />
C. 海石一(船底座ε)<br />
<br />
D. 十字架二(南十字座α)<br />
<br />
10、 我想去赶海,潮水退得最厉害的时候更容易找到贝壳等有趣的生物,请问在农历哪天去最好呢?( )<br />
<br />
A. 初三<br />
<br />
B. 初九<br />
<br />
C. 十六<br />
<br />
D. 廿二<br />
<br />
11、 2025 年 3 月 23 日,土星光环侧面对着地球,看上去好像光环消失了一样,下一次土星光环“消失” 是哪一年?( )<br />
<br />
A. 2029年<br />
<br />
B. 2032年<br />
<br />
C. 2039年<br />
<br />
D. 2042年<br />
<br />
12、 如果想测量天空中的10°,伸直手臂用以下哪种手势最接近?( )<br />
<br />
A.<br />
<gallery><br />
2025CNAO-预赛-12-A.png<br />
</gallery><br />
<br />
B. <br />
<gallery><br />
2025CNAO-预赛-12-B.png<br />
</gallery><br />
<br />
C. <br />
<gallery><br />
2025CNAO-预赛-12-C.png<br />
</gallery><br />
<br />
D. <br />
<gallery><br />
2025CNAO-预赛-12-D.png<br />
</gallery><br />
<br />
13、 下图是一张太阳的实拍照片,箭头所指的黑色斑点最有可能是什么?( )<br />
<br />
<gallery><br />
2025CNAO-预赛-13.png<br />
</gallery><br />
<br />
A. 地球大气中的漂浮物<br />
<br />
B. 太阳黑子<br />
<br />
C. 金星<br />
<br />
D. 水星<br />
<br />
14、 我们知道木星是一颗气体行星,主要成分为氢和氦,与恒星的组成成分类似。氢核聚变使得恒星能够发光发热。 那么,木星为什么不能成为一颗恒星呢?( )<br />
<br />
A. 体积不够大<br />
<br />
B. 质量不够大<br />
<br />
C. 氢的比例少<br />
<br />
D. 没有核反应催化剂<br />
<br />
15、 地球上发现最多的陨石类型是( )。<br />
<br />
A. 普通球粒陨石<br />
<br />
B. 无球粒陨石<br />
<br />
C. 铁陨石<br />
<br />
D. 中铁陨石<br />
<br />
16、 我国“天问二号”即将对太阳系的两颗小天体进行探测,其中一颗位于小行星主带内,它是一颗( )。<br />
<br />
A. S 型小行星<br />
<br />
B. C 型小行星<br />
<br />
C. 彗星<br />
<br />
D. M 型小行星<br />
<br />
17、 黄金是一种化学性质非常稳定的贵金属,金元素的原子序数为79,恒星中的核聚变反应不能合成金,只能通过更剧烈的天体过程合成。现在科学家认为,金元素主要是通过以下哪种过程产生的?( )<br />
<br />
A. 超新星爆发<br />
<br />
B. 中子星并合<br />
<br />
C. 潮汐瓦解事件<br />
<br />
D. 宇宙大爆炸<br />
<br />
18、以下四颗行星中,( )属于太阳系中具有全球性磁场的类地行星。<br />
<br />
A. 火星<br />
<br />
B. 金星<br />
<br />
C. 水星<br />
<br />
D. 土星<br />
<br />
19、 恒星的光度主要取决于其表面温度和半径。假设两颗恒星的质量相同,恒星 A 的半径是恒星 B 的两倍,而 A 的表面温度是 B 的一半。那么,恒星 A 的光度是恒星 B 的多少倍?( )<br />
<br />
A. 1/4<br />
<br />
B. 1/2<br />
<br />
C. 2<br />
<br />
D. 4<br />
<br />
20、 四川稻城无名山观测站,坐标为东经 100°,北纬 29°。今年劳动节午夜,下面哪个天体适合在该台址观测?( )<br />
<br />
A.土星 RA=23h54m,Dec=-02d48m <br />
<br />
B.昴星团 RA=03h46m,Dec=+24d11m<br />
<br />
C.南门二 RA=14h39m,Dec=-60d48m <br />
<br />
D.大角星 RA=14h15m,Dec=+19d09m<br />
<br />
21、宇宙线是来自外太空的高能次原子粒子的总称,其最主要的成分是( )。<br />
<br />
A. 电子 <br />
<br />
B. 中子 <br />
<br />
C. 质子 <br />
<br />
D. 中微子<br />
<br />
22、北京天文馆院区内放置的赤道式日晷,晷面上标注的是中国传统时辰。在芒种这一天(晴天),晷针影子是( )。<br />
<br />
A. 由寅顺时针转向戌 <br />
<br />
B. 由辰顺时针转向戌<br />
<br />
C. 由辰顺时针转向申 <br />
<br />
D. 由辰逆时针转向申<br />
<br />
23、天狼星是一个双星系统,由一颗主序星天狼星 A 和一颗白矮星天狼星 B 组成,其中后者是人类最早发现的白矮星之一,其光度在整个天狼星系统中仅占万分之一。已知天狼星的视星等约为-1.5 等,距离地球 8.6 光年,估算天狼星 B 的绝对星等为( )。<br />
<br />
A. 11.5 等 <br />
<br />
B. 8.5 等 <br />
<br />
C. 5.5 等 <br />
<br />
D. 1.5 等<br />
<br />
24、以下说法不正确的是( )。<br />
<br />
A. 2024 年1月顺利升空的天关卫星(原名爱因斯坦探针卫星),依托“龙虾眼”宽视场 X 射线聚焦成像技术,已经探测到多种类型的暂现天体。<br />
<br />
B. 2024年6月,嫦娥六号探测器成功完成世界首次月球背面采样,带回了珍贵的1935.3克月壤样本。<br />
<br />
C. 2024 年2月,高海拔宇宙线观测站( LHAASO)国际合作组宣布发现了一颗巨型超高能伽马射线泡,证认了首个超级宇宙线起源天体。<br />
<br />
D. 2024 年7月,我国科研人员首次在嫦娥五号带回的月壤样品中发现了液态水。<br />
<br />
25、遥远天体发出的电磁辐射由于宇宙自身膨胀而频率降低、波长变长,表现为光谱的谱线朝红端(波长更长方向)移动了一段距离,该现象称为宇宙学红移。请问在可见光的 g 波段(波长范围 400~550nm),我们可以探测到红移为 3 的年轻星系产生的哪条谱线(不考虑相对论效应)?( )<br />
<br />
A. Lyα (121.6nm) <br />
<br />
B. MgII(279.8nm) <br />
<br />
C. [OII](372.7nm) <br />
<br />
D. Hβ(486.8nm)<br />
<br />
26、 交食计算是中国古代历法的重要内容,历法准确的情况下,日食通常发生在哪一天?( )<br />
<br />
A. 朔日 <br />
<br />
B. 朏日 <br />
<br />
C. 望日 <br />
<br />
D. 晦日<br />
<br />
27、 北京时间2025年3月5日会发生月掩昴星团,当日在北京观测月球上中天的时间约为( )。<br />
<br />
A. 05:00 <br />
<br />
B. 11:00 <br />
<br />
C. 17:00 <br />
<br />
D. 23:00<br />
<br />
28、 下面哪种天文仪器不会因地理纬度的变化而影响其正常使用?( )<br />
<br />
A. 简仪 <br />
<br />
B. 地平式日晷 <br />
<br />
C. 浑仪 <br />
<br />
D. 象限仪<br />
<br />
29、温度不均匀的介质会改变光线的传播方向,降低望远镜的分辨率。在一般的低海拔地区,由于夜间大气层湍流的影响,进行长时间深空天体曝光单张拍摄的望远镜在焦距不变的情况下,口径增大到多少之后便无法再有效提升其单张图像的角分辨率?( )<br />
<br />
A. 约40mm <br />
<br />
B. 约150mm <br />
<br />
C. 约350mm <br />
<br />
D. 约1000mm<br />
<br />
30、在一个较长的时段内,对满月发生的农历时间取平均。该平均满月时刻最接近于( )。<br />
<br />
A. 农历十五 12 时 <br />
<br />
B. 农历十五 18 时 <br />
<br />
C. 农历十六 0 时 <br />
<br />
D. 农历十六 6 时<br />
<br />
31、 以德国物理学家命名的夫琅和费线是一系列强吸收线,请问下面哪个不属于夫琅和费线命名?( )<br />
<br />
A. He <br />
<br />
B. D1 <br />
<br />
C. H <br />
<br />
D. h<br />
<br />
32、下列哪个探测器可以探测到能量在 10<sup>15</sup>eV 量级的光子?( )<br />
<br />
A. 500 米口径球面射电望远镜(FAST) <br />
<br />
B. 高海拔宇宙线观测站(LHAASO)<br />
<br />
C.硬 X 射线调制望远镜(HXMT)<br />
<br />
D.暗物质粒子探测卫星(DAMPE)<br />
<br />
33、岁差会导致恒星坐标发生变化。其中哪种坐标变化最小?( )<br />
<br />
A. 赤经 <br />
<br />
B. 赤纬 <br />
<br />
C. 黄经 <br />
<br />
D. 黄纬<br />
<br />
34、每年 12 月中旬的夜晚,随着双子座流星雨辐射点升高,可以观测到的群内流星数量也会增加。流星的数量和辐射角高度的增长关系是一种什么曲线?( )<br />
<br />
A. 直线 <br />
<br />
B. 二次曲线 <br />
<br />
C. 对数曲线 <br />
<br />
D. 正弦曲线<br />
<br />
35、在本次预赛的日期,以下哪颗恒星的周年光行差数值最大?( )<br />
<br />
A. 毕宿五 <br />
<br />
B. 角宿一 <br />
<br />
C. 北河三 <br />
<br />
D. 心宿二<br />
<br />
==答案==<br />
<br />
ACDCD DACAC CBCBA CBCAD CAADA ACDBD ABDDB</div>Dg1200https://www.astro-init.top/index.php?title=2024-2025%E5%AD%A6%E5%B9%B4CNAO%E9%A2%84%E8%B5%9B%E9%80%89%E6%8B%A9%E9%A2%98&diff=27662024-2025学年CNAO预赛选择题2025-04-03T09:37:37Z<p>Dg1200:</p>
<hr />
<div>==题目==<br />
1、 今天的月相是( )。<br />
<br />
A. 新月<br />
<br />
B. 上弦月<br />
<br />
C. 满月<br />
<br />
D. 下弦月<br />
<br />
2、 以下哪个星座是黄道星座?( )<br />
<br />
A. 长蛇座<br />
<br />
B. 巨蛇座<br />
<br />
C. 蛇夫座<br />
<br />
D. 水蛇座<br />
<br />
3、 以下我国的光学天文台(站)中地理纬度最靠南的是( )。<br />
<br />
A. 青海冷湖观测站<br />
<br />
B. 四川稻城无名山观测站<br />
<br />
C. 国家天文台兴隆观测站<br />
<br />
D. 台湾鹿林天文台<br />
<br />
4、 以下哪个天体不属于太阳系?( )<br />
<br />
A. 冥王星<br />
<br />
B. 谷神星<br />
<br />
C. 比邻星<br />
<br />
D. 阋神星<br />
<br />
5、 以下哪个节气时太阳直射点的移动方向由南转向北?( )<br />
<br />
A. 春分<br />
<br />
B. 夏至<br />
<br />
C. 秋分<br />
<br />
D. 冬至<br />
<br />
6、 仙女星系、 大麦哲伦星系、 小麦哲伦星系, 以上三个星系肉眼可见的有几个?( )<br />
<br />
A. 0个<br />
<br />
B. 1个<br />
<br />
C. 2个<br />
<br />
D. 3个<br />
<br />
7、 2025 年在地球上观测不到以下哪类天象?( )<br />
<br />
A. 日全食<br />
<br />
B. 月全食<br />
<br />
C. 流星雨<br />
<br />
D. 月掩火星<br />
<br />
8、 再发新星北冕座 T(T CrB) 爆发周期大约是( )年。<br />
<br />
A. 11<br />
<br />
B. 33<br />
<br />
C. 80<br />
<br />
D. 120<br />
<br />
9、 以下恒星中赤纬最靠北的是( )。<br />
<br />
A. 老人星(船底座α)<br />
<br />
B. 水委一(波江座α)<br />
<br />
C. 海石一(船底座ε)<br />
<br />
D. 十字架二(南十字座α)<br />
<br />
10、 我想去赶海,潮水退得最厉害的时候更容易找到贝壳等有趣的生物,请问在农历哪天去最好呢?( )<br />
<br />
A. 初三<br />
<br />
B. 初九<br />
<br />
C. 十六<br />
<br />
D. 廿二<br />
<br />
11、 2025 年 3 月 23 日,土星光环侧面对着地球,看上去好像光环消失了一样,下一次土星光环“消失” 是哪一年?( )<br />
<br />
A. 2029年<br />
<br />
B. 2032年<br />
<br />
C. 2039年<br />
<br />
D. 2042年<br />
<br />
12、 如果想测量天空中的10°,伸直手臂用以下哪种手势最接近?( )<br />
<br />
A.<br />
[[文件:2025CNAO-预赛-12-A.png|缩略图]]<br />
<br />
B. <br />
[[文件:2025CNAO-预赛-12-B.png|缩略图]]<br />
<br />
C. <br />
[[文件:2025CNAO-预赛-12-C.png|缩略图]]<br />
<br />
D. <br />
[[文件:2025CNAO-预赛-12-D.png|缩略图]]<br />
<br />
13、 下图是一张太阳的实拍照片,箭头所指的黑色斑点最有可能是什么?( )<br />
<br />
[[文件:2025CNAO-预赛-13.png|缩略图]]<br />
<br />
A. 地球大气中的漂浮物<br />
<br />
B. 太阳黑子<br />
<br />
C. 金星<br />
<br />
D. 水星<br />
<br />
14、 我们知道木星是一颗气体行星,主要成分为氢和氦,与恒星的组成成分类似。氢核聚变使得恒星能够发光发热。 那么,木星为什么不能成为一颗恒星呢?( )<br />
<br />
A. 体积不够大<br />
<br />
B. 质量不够大<br />
<br />
C. 氢的比例少<br />
<br />
D. 没有核反应催化剂<br />
<br />
15、 地球上发现最多的陨石类型是( )。<br />
<br />
A. 普通球粒陨石<br />
<br />
B. 无球粒陨石<br />
<br />
C. 铁陨石<br />
<br />
D. 中铁陨石<br />
<br />
16、 我国“天问二号”即将对太阳系的两颗小天体进行探测,其中一颗位于小行星主带内,它是一颗( )。<br />
<br />
A. S 型小行星<br />
<br />
B. C 型小行星<br />
<br />
C. 彗星<br />
<br />
D. M 型小行星<br />
<br />
17、 黄金是一种化学性质非常稳定的贵金属,金元素的原子序数为79,恒星中的核聚变反应不能合成金,只能通过更剧烈的天体过程合成。现在科学家认为,金元素主要是通过以下哪种过程产生的?( )<br />
<br />
A. 超新星爆发<br />
<br />
B. 中子星并合<br />
<br />
C. 潮汐瓦解事件<br />
<br />
D. 宇宙大爆炸<br />
<br />
18、以下四颗行星中,( )属于太阳系中具有全球性磁场的类地行星。<br />
<br />
A. 火星<br />
<br />
B. 金星<br />
<br />
C. 水星<br />
<br />
D. 土星<br />
<br />
19、 恒星的光度主要取决于其表面温度和半径。假设两颗恒星的质量相同,恒星 A 的半径是恒星 B 的两倍,而 A 的表面温度是 B 的一半。那么,恒星 A 的光度是恒星 B 的多少倍?( )<br />
<br />
A. 1/4<br />
<br />
B. 1/2<br />
<br />
C. 2<br />
<br />
D. 4<br />
<br />
20、 四川稻城无名山观测站,坐标为东经 100°,北纬 29°。今年劳动节午夜,下面哪个天体适合在该台址观测?( )<br />
<br />
A.土星 RA=23h54m,Dec=-02d48m <br />
<br />
B.昴星团 RA=03h46m,Dec=+24d11m<br />
<br />
C.南门二 RA=14h39m,Dec=-60d48m <br />
<br />
D.大角星 RA=14h15m,Dec=+19d09m<br />
<br />
21、宇宙线是来自外太空的高能次原子粒子的总称,其最主要的成分是( )。<br />
<br />
A. 电子 <br />
<br />
B. 中子 <br />
<br />
C. 质子 <br />
<br />
D. 中微子<br />
<br />
22、北京天文馆院区内放置的赤道式日晷,晷面上标注的是中国传统时辰。在芒种这一天(晴天),晷针影子是( )。<br />
<br />
A. 由寅顺时针转向戌 <br />
<br />
B. 由辰顺时针转向戌<br />
<br />
C. 由辰顺时针转向申 <br />
<br />
D. 由辰逆时针转向申<br />
<br />
23、天狼星是一个双星系统,由一颗主序星天狼星 A 和一颗白矮星天狼星 B 组成,其中后者是人类最早发现的白矮星之一,其光度在整个天狼星系统中仅占万分之一。已知天狼星的视星等约为-1.5 等,距离地球 8.6 光年,估算天狼星 B 的绝对星等为( )。<br />
<br />
A. 11.5 等 <br />
<br />
B. 8.5 等 <br />
<br />
C. 5.5 等 <br />
<br />
D. 1.5 等<br />
<br />
24、以下说法不正确的是( )。<br />
<br />
A. 2024 年1月顺利升空的天关卫星(原名爱因斯坦探针卫星),依托“龙虾眼”宽视场 X 射线聚焦成像技术,已经探测到多种类型的暂现天体。<br />
<br />
B. 2024年6月,嫦娥六号探测器成功完成世界首次月球背面采样,带回了珍贵的1935.3克月壤样本。<br />
<br />
C. 2024 年2月,高海拔宇宙线观测站( LHAASO)国际合作组宣布发现了一颗巨型超高能伽马射线泡,证认了首个超级宇宙线起源天体。<br />
<br />
D. 2024 年7月,我国科研人员首次在嫦娥五号带回的月壤样品中发现了液态水。<br />
<br />
25、遥远天体发出的电磁辐射由于宇宙自身膨胀而频率降低、波长变长,表现为光谱的谱线朝红端(波长更长方向)移动了一段距离,该现象称为宇宙学红移。请问在可见光的 g 波段(波长范围 400~550nm),我们可以探测到红移为 3 的年轻星系产生的哪条谱线(不考虑相对论效应)?( )<br />
<br />
A. Lyα (121.6nm) <br />
<br />
B. MgII(279.8nm) <br />
<br />
C. [OII](372.7nm) <br />
<br />
D. Hβ(486.8nm)<br />
<br />
26、 交食计算是中国古代历法的重要内容,历法准确的情况下,日食通常发生在哪一天?( )<br />
<br />
A. 朔日 <br />
<br />
B. 朏日 <br />
<br />
C. 望日 <br />
<br />
D. 晦日<br />
<br />
27、 北京时间2025年3月5日会发生月掩昴星团,当日在北京观测月球上中天的时间约为( )。<br />
<br />
A. 05:00 <br />
<br />
B. 11:00 <br />
<br />
C. 17:00 <br />
<br />
D. 23:00<br />
<br />
28、 下面哪种天文仪器不会因地理纬度的变化而影响其正常使用?( )<br />
<br />
A. 简仪 <br />
<br />
B. 地平式日晷 <br />
<br />
C. 浑仪 <br />
<br />
D. 象限仪<br />
<br />
29、温度不均匀的介质会改变光线的传播方向,降低望远镜的分辨率。在一般的低海拔地区,由于夜间大气层湍流的影响,进行长时间深空天体曝光单张拍摄的望远镜在焦距不变的情况下,口径增大到多少之后便无法再有效提升其单张图像的角分辨率?( )<br />
<br />
A. 约40mm <br />
<br />
B. 约150mm <br />
<br />
C. 约350mm <br />
<br />
D. 约1000mm<br />
<br />
30、在一个较长的时段内,对满月发生的农历时间取平均。该平均满月时刻最接近于( )。<br />
<br />
A. 农历十五 12 时 <br />
<br />
B. 农历十五 18 时 <br />
<br />
C. 农历十六 0 时 <br />
<br />
D. 农历十六 6 时<br />
<br />
31、 以德国物理学家命名的夫琅和费线是一系列强吸收线,请问下面哪个不属于夫琅和费线命名?( )<br />
<br />
A. He <br />
<br />
B. D1 <br />
<br />
C. H <br />
<br />
D. h<br />
<br />
32、下列哪个探测器可以探测到能量在 10<sup>15</sup>eV 量级的光子?( )<br />
<br />
A. 500 米口径球面射电望远镜(FAST) <br />
<br />
B. 高海拔宇宙线观测站(LHAASO)<br />
<br />
C.硬 X 射线调制望远镜(HXMT)<br />
<br />
D.暗物质粒子探测卫星(DAMPE)<br />
<br />
33、岁差会导致恒星坐标发生变化。其中哪种坐标变化最小?( )<br />
<br />
A. 赤经 <br />
<br />
B. 赤纬 <br />
<br />
C. 黄经 <br />
<br />
D. 黄纬<br />
<br />
34、每年 12 月中旬的夜晚,随着双子座流星雨辐射点升高,可以观测到的群内流星数量也会增加。流星的数量和辐射角高度的增长关系是一种什么曲线?( )<br />
<br />
A. 直线 <br />
<br />
B. 二次曲线 <br />
<br />
C. 对数曲线 <br />
<br />
D. 正弦曲线<br />
<br />
35、在本次预赛的日期,以下哪颗恒星的周年光行差数值最大?( )<br />
<br />
A. 毕宿五 <br />
<br />
B. 角宿一 <br />
<br />
C. 北河三 <br />
<br />
D. 心宿二<br />
<br />
==答案==<br />
<br />
ACDCD DACAC CBCBA CBCAD CAADA ACDBD ABDDB</div>Dg1200https://www.astro-init.top/index.php?title=%E6%96%87%E4%BB%B6:2025CNAO-%E9%A2%84%E8%B5%9B-13.png&diff=2765文件:2025CNAO-预赛-13.png2025-04-03T09:11:38Z<p>Dg1200:2024-2025学年CNAO预赛选择题13题图</p>
<hr />
<div>== 文件说明 ==<br />
2024-2025学年CNAO预赛选择题13题图</div>Dg1200https://www.astro-init.top/index.php?title=%E6%96%87%E4%BB%B6:2025CNAO-%E9%A2%84%E8%B5%9B-12-D.png&diff=2764文件:2025CNAO-预赛-12-D.png2025-04-03T09:08:06Z<p>Dg1200:2024-2025学年CNAO预赛选择题12题D选项</p>
<hr />
<div>== 文件说明 ==<br />
2024-2025学年CNAO预赛选择题12题D选项</div>Dg1200https://www.astro-init.top/index.php?title=%E6%96%87%E4%BB%B6:2025CNAO-%E9%A2%84%E8%B5%9B-12-C.png&diff=2763文件:2025CNAO-预赛-12-C.png2025-04-03T09:07:52Z<p>Dg1200:2024-2025学年CNAO预赛选择题12题C选项</p>
<hr />
<div>== 文件说明 ==<br />
2024-2025学年CNAO预赛选择题12题C选项</div>Dg1200https://www.astro-init.top/index.php?title=%E6%96%87%E4%BB%B6:2025CNAO-%E9%A2%84%E8%B5%9B-12-B.png&diff=2762文件:2025CNAO-预赛-12-B.png2025-04-03T09:07:23Z<p>Dg1200:2024-2025学年CNAO预赛选择题12题B选项</p>
<hr />
<div>== 文件说明 ==<br />
2024-2025学年CNAO预赛选择题12题B选项</div>Dg1200https://www.astro-init.top/index.php?title=%E6%96%87%E4%BB%B6:2025CNAO-%E9%A2%84%E8%B5%9B-12-A.png&diff=2761文件:2025CNAO-预赛-12-A.png2025-04-03T09:07:00Z<p>Dg1200:2024-2025学年CNAO预赛选择题12题A选项</p>
<hr />
<div>== 文件说明 ==<br />
2024-2025学年CNAO预赛选择题12题A选项</div>Dg1200https://www.astro-init.top/index.php?title=2024-2025%E5%AD%A6%E5%B9%B4CNAO%E9%A2%84%E8%B5%9B%E9%80%89%E6%8B%A9%E9%A2%98&diff=27602024-2025学年CNAO预赛选择题2025-04-03T08:53:37Z<p>Dg1200:清空页面</p>
<hr />
<div></div>Dg1200https://www.astro-init.top/index.php?title=2024-2025%E5%AD%A6%E5%B9%B4CNAO%E9%A2%84%E8%B5%9B%E9%80%89%E6%8B%A9%E9%A2%98&diff=27592024-2025学年CNAO预赛选择题2025-04-03T08:51:55Z<p>Dg1200:</p>
<hr />
<div>2024-2025学年全国中学生天文知识竞赛预赛于2025年3月29日(星期六)14:00-15:30举行,决赛预计在汕头举行。<br />
<br />
==预赛==<br />
<br />
[[2024-2025学年CNAO预赛选择题]]</div>Dg1200https://www.astro-init.top/index.php?title=2024-2025%E5%AD%A6%E5%B9%B4CNAO%E9%A2%84%E8%B5%9B%E9%80%89%E6%8B%A9%E9%A2%98&diff=27582024-2025学年CNAO预赛选择题2025-04-03T08:51:04Z<p>Dg1200:创建页面,内容为“2024-2025学年全国中学生天文知识竞赛预赛于2025年3月29日(星期六)14:00-15:30举行,决赛预计在汕头举行。 ==预赛== 2024-2025学…”</p>
<hr />
<div>2024-2025学年全国中学生天文知识竞赛预赛于2025年3月29日(星期六)14:00-15:30举行,决赛预计在汕头举行。<br />
==预赛==<br />
[[2024-2025学年CNAO预赛选择题]]</div>Dg1200https://www.astro-init.top/index.php?title=CNAO2025&diff=2757CNAO20252025-04-03T08:50:04Z<p>Dg1200:/* 预赛 */</p>
<hr />
<div>2024-2025学年全国中学生天文知识竞赛预赛于2025年3月29日(星期六)14:00-15:30举行,决赛预计在汕头举行。<br />
==预赛==<br />
[[2024-2025学年CNAO预赛选择题]]</div>Dg1200https://www.astro-init.top/index.php?title=CNAO2025&diff=2756CNAO20252025-04-03T08:49:54Z<p>Dg1200:创建页面,内容为“2024-2025学年全国中学生天文知识竞赛预赛于2025年3月29日(星期六)14:00-15:30举行,决赛预计在汕头举行。 ==预赛== 2023-2024学…”</p>
<hr />
<div>2024-2025学年全国中学生天文知识竞赛预赛于2025年3月29日(星期六)14:00-15:30举行,决赛预计在汕头举行。<br />
==预赛==<br />
[[2023-2024学年CNAO预赛选择题]]</div>Dg1200https://www.astro-init.top/index.php?title=2021-2022%E5%B9%B4CNAO%E5%86%B3%E8%B5%9B%E7%AC%AC6%E9%A2%98-%E8%A7%82%E7%9C%8B%E8%A7%86%E9%A2%91%E5%90%8E%E4%BD%9C%E7%AD%94&diff=26472021-2022年CNAO决赛第6题-观看视频后作答2025-01-25T16:10:57Z<p>Dg1200:</p>
<hr />
<div>[https://www.bilibili.com/video/BV157FcenE2n/ 第6题视频]<br />
<br />
1. 请写出操作人员在组装望远镜中的不规范之处(5分)<br />
<br />
2. 操作人员将望远镜指向天顶附近的恒星并进行连续观测(假设赤道仪有电动跟踪并已调整好极轴)请问他的操作正确吗?为什么?(4分)<br />
<br />
3. 请写出目前望远镜的口径和放大倍率(3分)</div>Dg1200https://www.astro-init.top/index.php?title=2021-2022%E5%B9%B4CNAO%E5%86%B3%E8%B5%9B%E7%AC%AC6%E9%A2%98-%E8%A7%82%E7%9C%8B%E8%A7%86%E9%A2%91%E5%90%8E%E4%BD%9C%E7%AD%94&diff=26462021-2022年CNAO决赛第6题-观看视频后作答2025-01-25T15:49:39Z<p>Dg1200:</p>
<hr />
<div>[https://pan.baidu.com/s/1AhM8G_Wt0c5qVS97Vceo0g?pwd=n2sy 考试视频]<br />
<br />
1. 请写出操作人员在组装望远镜中的不规范之处(5分)<br />
<br />
2. 操作人员将望远镜指向天顶附近的恒星并进行连续观测(假设赤道仪有电动跟踪并已调整好极轴)请问他的操作正确吗?为什么?(4分)<br />
<br />
3. 请写出目前望远镜的口径和放大倍率(3分)</div>Dg1200https://www.astro-init.top/index.php?title=2021-2022%E5%B9%B4CNAO%E5%86%B3%E8%B5%9B%E7%AC%AC6%E9%A2%98-%E8%A7%82%E7%9C%8B%E8%A7%86%E9%A2%91%E5%90%8E%E4%BD%9C%E7%AD%94&diff=26452021-2022年CNAO决赛第6题-观看视频后作答2025-01-25T15:44:44Z<p>Dg1200:创建页面,内容为“[https://pan.baidu.com/s/1AhM8G_Wt0c5qVS97Vceo0g?pwd=n2sy 考试视频]”</p>
<hr />
<div>[https://pan.baidu.com/s/1AhM8G_Wt0c5qVS97Vceo0g?pwd=n2sy 考试视频]</div>Dg1200https://www.astro-init.top/index.php?title=CNAO2023&diff=2584CNAO20232023-11-23T02:56:00Z<p>Dg1200:/* 预赛 */</p>
<hr />
<div>2022-2023全国中学生天文知识竞赛预赛于2023年4月1日举行,决赛于5月8日-12日在天津举行。<br />
<br />
==预赛==<br />
<br />
[[2022-2023学年预赛选择题|2022-2023学年CNAO预赛选择题]]<br />
<br />
==相关链接==<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c13686329d57018634b06733000c.shtml (预赛考点征集)<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c1368694762d018695cee94a0026.shtml (预赛报名通知)<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c13686d768d80186d89eef9d000c.shtml (预赛结果报名公示)<br />
<br />
https://www.bjp.org.cn/xwzx/gndt/4028c13687530175018754b67d27002e.shtml (预赛成绩公示)</div>Dg1200https://www.astro-init.top/index.php?title=2022-2023%E5%AD%A6%E5%B9%B4CNAO%E9%A2%84%E8%B5%9B%E9%80%89%E6%8B%A9%E9%A2%98&diff=25822022-2023学年CNAO预赛选择题2023-11-23T02:55:32Z<p>Dg1200:Dg1200移动页面2022-2023学年预赛选择题至2022-2023学年CNAO预赛选择题</p>
<hr />
<div>==试题==<br />
<br />
01. 今晚的月相更接近( )。<br />
<br />
A. 朔 B. 望 C. 下弦月 D.残月<br />
<br />
02. 以下哪颗恒星不属于“冬季大六边形“?( )<br />
<br />
A. 五车二 B. 参宿四 C. 南河三 D. 毕宿五<br />
<br />
03.M31是( )。<br />
<br />
A. 星云 B. 星团 C. 星系 D. 恒星<br />
<br />
04. “笔尖上的行星”是( )。<br />
<br />
A. 地球 B. 火星 C. 土星 D. 海王星<br />
<br />
05. 最早使用望远镜进行天文观测的科学家是( )。<br />
<br />
A. 哥白尼 B. 牛顿 C. 伽利略 D. 开普勒<br />
<br />
06. 象限仪流星雨的辐射点与以下哪个星座最近?( )<br />
<br />
A. 玉夫座 B. 武仙座 C. 狮子座 D. 六分仪座<br />
<br />
07. 天文学是自然科学六大基础学科之一,其主要的三个分支学科包括:天体测量学、天体力学、( )。<br />
<br />
A. 天体化学 B. 天体物理学 C. 天体生物学 D. 天文地理学<br />
<br />
08. 地月距离大约是( )个天文单位。<br />
<br />
A. 0.00001 B. 0.0025 C. 0.05 D. 1<br />
<br />
09. 北极星(小熊座 α)的目视亮度在全天恒星中排( )。<br />
<br />
A. 第 1 名 B. 第 5 名 C. 第 20 名左右 D. 第 50 名左右<br />
<br />
10. 以下节气(中气)出现在农历“正月”里概率最大的是( )。 <br />
<br />
A. 小寒 B. 大寒 C. 立春 D. 雨水<br />
<br />
11. 以下哪台已有或在建望远镜的有效口径最大?( )<br />
<br />
A. E-ELT B. GTC C. 昴星团望远镜 D. HET<br />
<br />
12. 在地球上任意一个位置,以下情况一定正确的是( )。<br />
<br />
A. 一年里每次太阳上中天的方位角相同。<br />
<br />
B. 一年里每次日出时(日心位于地平线上)太阳的方位角相同。 <br />
<br />
C. 一年里每次日出(日面出地平至完全出地平)的用时相同。 <br />
<br />
D. 其他几个选项都不正确。<br />
<br />
13. 在位于四川省甘孜藏族自治州稻城县的无名山天文台(100.108E,29.107N),观测者看 到一颗流星自北向南划过消失在地平线附近,在以下哪个天文台站有可能观测到同一颗流星?( )<br />
<br />
A. 西藏阿里(80.027E,32.326N) <br />
<br />
B. 新疆慕士塔格(74.897E,38.330N)<br />
<br />
C. 云南高美谷(100.029E,26.694N) <br />
<br />
D. 河北兴隆(117.577E,40.396N)<br />
<br />
14. 下次日食将发生在( )。<br />
<br />
A. 2023 年 4 月 20 日 B. 2023 年 10 月 27 日 C. 2023 年 11 月 23 日 D. 2024 年 4 月 9 日<br />
<br />
15. 昨晚日落后不久,不考虑天气和遮挡的影响,你所在地能看到最亮的行星是?( )<br />
<br />
A. 水星 B. 金星 C. 木星 D. 天王星<br />
<br />
16. 以下恒星中哪个看上去颜色更偏红?( )<br />
<br />
A. 参宿七 B. 织女星 C. 角宿一 D. 心宿二<br />
<br />
17. 以下哪个梅西叶天体不属于室女星系团?( )<br />
<br />
A. M60 B. M84 C. M87 D. M101<br />
<br />
18. 2022 年 7 月 12 日,詹姆斯韦布望远镜公开了首批科学图像,其中( )的科学图像中只包括光谱观测结果,而不包括成像观测结果。<br />
<br />
A. 船底座大星云“宇宙悬崖” <br />
<br />
B. WASP-96b 系外行星<br />
<br />
C. 南指环星云 <br />
<br />
D. SMACSJ0723 星系团<br />
<br />
19. 彗星 C/2022E3(ZTF)于 2023 年 1 月 12 日过近日点,当时位于后发座。该彗星轨道偏心率接近1,轨道倾角 109°。2223 年 4 月 1 日该彗星最可能位于以下哪个星座附近?( ) <br />
<br />
A. 天龙座 B. 天鹰座 C. 天鹤座. D. 天鹅座<br />
<br />
20. 以下哪一颗小天体不是由业余天文学家 Gennadiy Borisov 发现的?( ) <br />
<br />
A. 2023 BU B. C/2019 Q4 C. C/2017 K2 D. C/2013 V2<br />
<br />
21. 某次上弦月恰逢月亮位于白道对黄道的升交点,在某地月亮位于上中天时观测,月亮视 面被照亮部分占整个月面的比例为( )。<br />
<br />
A. 小于等于 40% B. 大于 40%小于 50% C. 等于 50% D. 大于 50%小于 60%<br />
<br />
22. 在以下太阳系的天然卫星中,轨道运行周期比其母行星的自转周期还短的是( )。<br />
<br />
A. 木卫一 B. 木卫四 C. 火卫一 D. 火卫二<br />
<br />
23. “荧惑守心”是中国史籍中的一种天象记载,其中的“荧惑”指的是( )。 <br />
<br />
A. 天狼星 B. 土星 C. 火星 D. 木星<br />
<br />
24. 在中国,有一种载人航天飞船叫“神舟”;有一种载人空间站叫“天宫”;有一种中继通信卫星叫“鹊桥”;有一种暗物质探测器叫“悟空”,下面哪个暂时还不是中国航天项目 的名称?( )<br />
<br />
A. 洛神 B. 嫦娥 C. 羲和 D. 祝融<br />
<br />
25. 2023 年是比利时耶稣会士南怀仁诞辰 600 周年,下列哪架天文仪器是南怀仁设计监制的?( )<br />
<br />
A. 玑衡抚辰仪 B. 纪限仪 C. 浑仪 D. 水运仪象台<br />
<br />
26. 在距离太阳 200 天文单位的地方释放一个石块,若仅考虑太阳引力作用,它需要多长时间落到太阳表面?( )<br />
<br />
A. 5 年 B. 50 年 C. 500 年 D. 5000 年<br />
<br />
27. 假设一个视星等为 18 等的星系的光全部均匀分布在视半径为 6 角秒的圆形区域中,其面 视星等是( )等/平方角秒。<br />
<br />
A. 13 B. 18 C. 23 D. 28<br />
<br />
28. 假设宇宙匀速膨胀,已知今天的哈勃常数 H0=70 km/s/Mpc,请问宇宙的年龄大约为? ( )<br />
<br />
A. 1 亿年 B. 10 亿年 C. 100 亿年 D. 1000 亿年<br />
<br />
29. 在刘慈欣的知名科幻小说《三体》中,我们的邻居比邻星上存在着比地球文明更高级的 三体文明。三体人由于生存环境恶劣,准备向地球迁移。假设三体舰队从比邻星出发,一直以 1/10 光速的速度向地球航行,走了比邻星到地球距离的 9/10 后,由于故障原地暂停。此时他们看到的太阳亮度( )。<br />
<br />
A. 变亮 1 个星等 B. 变亮 5 个星等 C. 变亮 10 个星等 D. 变亮 100 个星等<br />
<br />
30. 比邻星到我们的距离是 4.2 光年,在地球上看,它的周年视差是多少?( ) <br />
<br />
A. 1.58 角秒 B. 0.24 角秒 C. 0.77 角秒 D. 4.2 角秒<br />
<br />
31. 视向速度为 1000 km/s 的超高速恒星对应的红移/蓝移是多少?( ) <br />
<br />
A. 3 B. 0.3 C. 0.03 D. 0.003<br />
<br />
32. 多位邵逸夫天文学奖得主目前已获得诺贝尔物理学奖。以下哪项发现已获得了邵逸夫天文学奖,但尚未获得诺贝尔物理学奖?( )<br />
<br />
A. 发现重子声学振荡 B. 直接观测引力波 C. 银河系中心的超大质量黑洞 D. 首个环绕类太阳恒星的系外行星<br />
<br />
33. 建造中的中国空间站巡天望远镜(CSST)的工作波段范围是( )。<br />
<br />
A. 紫外–可见光 B. 光学–近红外 C. 光学–射电 D. 紫外–亚毫米波<br />
<br />
34. 射电望远镜可以组成干涉阵列,望远镜的最大间隔越长,角分辨率越好,其角分辨率的 计算方法与光学望远镜近似。如果在我国国土最东端和最西端分别修建射电望远镜并组网, 在 21 厘米的波长上进行观测,理论角分辨率是( )。<br />
<br />
A. 40纳角秒 B.2微角秒 C.8毫角秒 D.1-2角秒(受限于大气视宁度)<br />
<br />
35. “赫罗图”是天文学家最喜欢的图形之一,是研究恒星非常重要的工具。它是以恒星光 谱型(或表面温度)为横坐标,以绝对星等(光度)为纵坐标作图。我们从赫罗图中可以获 得很多恒星的信息,包括恒星的温度、光度、半径,分类和演化轨迹等。下图中,哪条线可以代表恒星半径在赫罗图上的分布规律(箭头方向代表越来越大)?( )<br />
<br />
==答案==<br />
<br />
BBCDC BBBDD ADCAB DDBCC DCCAB CCCBC DADCC</div>Dg1200https://www.astro-init.top/index.php?title=2022-2023%E5%AD%A6%E5%B9%B4%E9%A2%84%E8%B5%9B%E9%80%89%E6%8B%A9%E9%A2%98&diff=25832022-2023学年预赛选择题2023-11-23T02:55:32Z<p>Dg1200:Dg1200移动页面2022-2023学年预赛选择题至2022-2023学年CNAO预赛选择题</p>
<hr />
<div>#重定向 [[2022-2023学年CNAO预赛选择题]]</div>Dg1200https://www.astro-init.top/index.php?title=2022-2023%E5%AD%A6%E5%B9%B4CNAO%E9%A2%84%E8%B5%9B%E9%80%89%E6%8B%A9%E9%A2%98&diff=25802022-2023学年CNAO预赛选择题2023-11-23T02:54:18Z<p>Dg1200:Dg1200移动页面预赛选择题至2022-2023学年预赛选择题</p>
<hr />
<div>==试题==<br />
<br />
01. 今晚的月相更接近( )。<br />
<br />
A. 朔 B. 望 C. 下弦月 D.残月<br />
<br />
02. 以下哪颗恒星不属于“冬季大六边形“?( )<br />
<br />
A. 五车二 B. 参宿四 C. 南河三 D. 毕宿五<br />
<br />
03.M31是( )。<br />
<br />
A. 星云 B. 星团 C. 星系 D. 恒星<br />
<br />
04. “笔尖上的行星”是( )。<br />
<br />
A. 地球 B. 火星 C. 土星 D. 海王星<br />
<br />
05. 最早使用望远镜进行天文观测的科学家是( )。<br />
<br />
A. 哥白尼 B. 牛顿 C. 伽利略 D. 开普勒<br />
<br />
06. 象限仪流星雨的辐射点与以下哪个星座最近?( )<br />
<br />
A. 玉夫座 B. 武仙座 C. 狮子座 D. 六分仪座<br />
<br />
07. 天文学是自然科学六大基础学科之一,其主要的三个分支学科包括:天体测量学、天体力学、( )。<br />
<br />
A. 天体化学 B. 天体物理学 C. 天体生物学 D. 天文地理学<br />
<br />
08. 地月距离大约是( )个天文单位。<br />
<br />
A. 0.00001 B. 0.0025 C. 0.05 D. 1<br />
<br />
09. 北极星(小熊座 α)的目视亮度在全天恒星中排( )。<br />
<br />
A. 第 1 名 B. 第 5 名 C. 第 20 名左右 D. 第 50 名左右<br />
<br />
10. 以下节气(中气)出现在农历“正月”里概率最大的是( )。 <br />
<br />
A. 小寒 B. 大寒 C. 立春 D. 雨水<br />
<br />
11. 以下哪台已有或在建望远镜的有效口径最大?( )<br />
<br />
A. E-ELT B. GTC C. 昴星团望远镜 D. HET<br />
<br />
12. 在地球上任意一个位置,以下情况一定正确的是( )。<br />
<br />
A. 一年里每次太阳上中天的方位角相同。<br />
<br />
B. 一年里每次日出时(日心位于地平线上)太阳的方位角相同。 <br />
<br />
C. 一年里每次日出(日面出地平至完全出地平)的用时相同。 <br />
<br />
D. 其他几个选项都不正确。<br />
<br />
13. 在位于四川省甘孜藏族自治州稻城县的无名山天文台(100.108E,29.107N),观测者看 到一颗流星自北向南划过消失在地平线附近,在以下哪个天文台站有可能观测到同一颗流星?( )<br />
<br />
A. 西藏阿里(80.027E,32.326N) <br />
<br />
B. 新疆慕士塔格(74.897E,38.330N)<br />
<br />
C. 云南高美谷(100.029E,26.694N) <br />
<br />
D. 河北兴隆(117.577E,40.396N)<br />
<br />
14. 下次日食将发生在( )。<br />
<br />
A. 2023 年 4 月 20 日 B. 2023 年 10 月 27 日 C. 2023 年 11 月 23 日 D. 2024 年 4 月 9 日<br />
<br />
15. 昨晚日落后不久,不考虑天气和遮挡的影响,你所在地能看到最亮的行星是?( )<br />
<br />
A. 水星 B. 金星 C. 木星 D. 天王星<br />
<br />
16. 以下恒星中哪个看上去颜色更偏红?( )<br />
<br />
A. 参宿七 B. 织女星 C. 角宿一 D. 心宿二<br />
<br />
17. 以下哪个梅西叶天体不属于室女星系团?( )<br />
<br />
A. M60 B. M84 C. M87 D. M101<br />
<br />
18. 2022 年 7 月 12 日,詹姆斯韦布望远镜公开了首批科学图像,其中( )的科学图像中只包括光谱观测结果,而不包括成像观测结果。<br />
<br />
A. 船底座大星云“宇宙悬崖” <br />
<br />
B. WASP-96b 系外行星<br />
<br />
C. 南指环星云 <br />
<br />
D. SMACSJ0723 星系团<br />
<br />
19. 彗星 C/2022E3(ZTF)于 2023 年 1 月 12 日过近日点,当时位于后发座。该彗星轨道偏心率接近1,轨道倾角 109°。2223 年 4 月 1 日该彗星最可能位于以下哪个星座附近?( ) <br />
<br />
A. 天龙座 B. 天鹰座 C. 天鹤座. D. 天鹅座<br />
<br />
20. 以下哪一颗小天体不是由业余天文学家 Gennadiy Borisov 发现的?( ) <br />
<br />
A. 2023 BU B. C/2019 Q4 C. C/2017 K2 D. C/2013 V2<br />
<br />
21. 某次上弦月恰逢月亮位于白道对黄道的升交点,在某地月亮位于上中天时观测,月亮视 面被照亮部分占整个月面的比例为( )。<br />
<br />
A. 小于等于 40% B. 大于 40%小于 50% C. 等于 50% D. 大于 50%小于 60%<br />
<br />
22. 在以下太阳系的天然卫星中,轨道运行周期比其母行星的自转周期还短的是( )。<br />
<br />
A. 木卫一 B. 木卫四 C. 火卫一 D. 火卫二<br />
<br />
23. “荧惑守心”是中国史籍中的一种天象记载,其中的“荧惑”指的是( )。 <br />
<br />
A. 天狼星 B. 土星 C. 火星 D. 木星<br />
<br />
24. 在中国,有一种载人航天飞船叫“神舟”;有一种载人空间站叫“天宫”;有一种中继通信卫星叫“鹊桥”;有一种暗物质探测器叫“悟空”,下面哪个暂时还不是中国航天项目 的名称?( )<br />
<br />
A. 洛神 B. 嫦娥 C. 羲和 D. 祝融<br />
<br />
25. 2023 年是比利时耶稣会士南怀仁诞辰 600 周年,下列哪架天文仪器是南怀仁设计监制的?( )<br />
<br />
A. 玑衡抚辰仪 B. 纪限仪 C. 浑仪 D. 水运仪象台<br />
<br />
26. 在距离太阳 200 天文单位的地方释放一个石块,若仅考虑太阳引力作用,它需要多长时间落到太阳表面?( )<br />
<br />
A. 5 年 B. 50 年 C. 500 年 D. 5000 年<br />
<br />
27. 假设一个视星等为 18 等的星系的光全部均匀分布在视半径为 6 角秒的圆形区域中,其面 视星等是( )等/平方角秒。<br />
<br />
A. 13 B. 18 C. 23 D. 28<br />
<br />
28. 假设宇宙匀速膨胀,已知今天的哈勃常数 H0=70 km/s/Mpc,请问宇宙的年龄大约为? ( )<br />
<br />
A. 1 亿年 B. 10 亿年 C. 100 亿年 D. 1000 亿年<br />
<br />
29. 在刘慈欣的知名科幻小说《三体》中,我们的邻居比邻星上存在着比地球文明更高级的 三体文明。三体人由于生存环境恶劣,准备向地球迁移。假设三体舰队从比邻星出发,一直以 1/10 光速的速度向地球航行,走了比邻星到地球距离的 9/10 后,由于故障原地暂停。此时他们看到的太阳亮度( )。<br />
<br />
A. 变亮 1 个星等 B. 变亮 5 个星等 C. 变亮 10 个星等 D. 变亮 100 个星等<br />
<br />
30. 比邻星到我们的距离是 4.2 光年,在地球上看,它的周年视差是多少?( ) <br />
<br />
A. 1.58 角秒 B. 0.24 角秒 C. 0.77 角秒 D. 4.2 角秒<br />
<br />
31. 视向速度为 1000 km/s 的超高速恒星对应的红移/蓝移是多少?( ) <br />
<br />
A. 3 B. 0.3 C. 0.03 D. 0.003<br />
<br />
32. 多位邵逸夫天文学奖得主目前已获得诺贝尔物理学奖。以下哪项发现已获得了邵逸夫天文学奖,但尚未获得诺贝尔物理学奖?( )<br />
<br />
A. 发现重子声学振荡 B. 直接观测引力波 C. 银河系中心的超大质量黑洞 D. 首个环绕类太阳恒星的系外行星<br />
<br />
33. 建造中的中国空间站巡天望远镜(CSST)的工作波段范围是( )。<br />
<br />
A. 紫外–可见光 B. 光学–近红外 C. 光学–射电 D. 紫外–亚毫米波<br />
<br />
34. 射电望远镜可以组成干涉阵列,望远镜的最大间隔越长,角分辨率越好,其角分辨率的 计算方法与光学望远镜近似。如果在我国国土最东端和最西端分别修建射电望远镜并组网, 在 21 厘米的波长上进行观测,理论角分辨率是( )。<br />
<br />
A. 40纳角秒 B.2微角秒 C.8毫角秒 D.1-2角秒(受限于大气视宁度)<br />
<br />
35. “赫罗图”是天文学家最喜欢的图形之一,是研究恒星非常重要的工具。它是以恒星光 谱型(或表面温度)为横坐标,以绝对星等(光度)为纵坐标作图。我们从赫罗图中可以获 得很多恒星的信息,包括恒星的温度、光度、半径,分类和演化轨迹等。下图中,哪条线可以代表恒星半径在赫罗图上的分布规律(箭头方向代表越来越大)?( )<br />
<br />
==答案==<br />
<br />
BBCDC BBBDD ADCAB DDBCC DCCAB CCCBC DADCC</div>Dg1200https://www.astro-init.top/index.php?title=%E9%A2%84%E8%B5%9B%E9%80%89%E6%8B%A9%E9%A2%98&diff=2581预赛选择题2023-11-23T02:54:18Z<p>Dg1200:Dg1200移动页面预赛选择题至2022-2023学年预赛选择题</p>
<hr />
<div>#重定向 [[2022-2023学年预赛选择题]]</div>Dg1200https://www.astro-init.top/index.php?title=CNAO2023&diff=2579CNAO20232023-11-23T02:53:18Z<p>Dg1200:</p>
<hr />
<div>2022-2023全国中学生天文知识竞赛预赛于2023年4月1日举行,决赛于5月8日-12日在天津举行。<br />
<br />
==预赛==<br />
<br />
[[2022-2023学年预赛选择题]]<br />
<br />
==相关链接==<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c13686329d57018634b06733000c.shtml (预赛考点征集)<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c1368694762d018695cee94a0026.shtml (预赛报名通知)<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c13686d768d80186d89eef9d000c.shtml (预赛结果报名公示)<br />
<br />
https://www.bjp.org.cn/xwzx/gndt/4028c13687530175018754b67d27002e.shtml (预赛成绩公示)</div>Dg1200https://www.astro-init.top/index.php?title=2021-2022%E5%B9%B4CNAO%E5%86%B3%E8%B5%9B%E7%AC%AC7%E9%A2%98-%E8%A7%82%E5%AF%9F%E6%98%9F%E5%9B%BE%E5%90%8E%E4%BD%9C%E7%AD%94&diff=25582021-2022年CNAO决赛第7题-观察星图后作答2023-10-31T04:06:42Z<p>Dg1200:创建页面,内容为“缩略图”</p>
<hr />
<div>[[文件:CNAO2022第7题星图.jpeg|缩略图]]</div>Dg1200https://www.astro-init.top/index.php?title=%E6%96%87%E4%BB%B6:CNAO2022%E7%AC%AC7%E9%A2%98%E6%98%9F%E5%9B%BE.jpeg&diff=2557文件:CNAO2022第7题星图.jpeg2023-10-31T04:05:11Z<p>Dg1200:</p>
<hr />
<div></div>Dg1200https://www.astro-init.top/index.php?title=2021USAAAO%E9%A2%84%E8%B5%9B%E9%80%89%E6%8B%A9%E9%A2%98&diff=25012021USAAAO预赛选择题2023-05-30T14:58:59Z<p>Dg1200:</p>
<hr />
<div>==题目==<br />
<br />
1. On December 21, 2020, Jupiter was at $$(\alpha,\delta)=(20^{h}10^{m},-20°34′)$$. Which constellation was Saturn in?<br />
<br />
(a) Capricornus<br />
<br />
(b) Aquarius<br />
<br />
(c) Pisces<br />
<br />
(d) Aquila<br />
<br />
2. What is the spectral type of a star with a luminosity of 5.86 * 10<sup>26</sup> W and radius of 8.51 * 10<sup>8</sup> m?<br />
<br />
(a) A<br />
<br />
(b) F<br />
<br />
(c) G<br />
<br />
(d) K<br />
<br />
(e) M<br />
<br />
3. The exoplanet HD 209458b has a mass of 0.71 Jupiter masses and orbits HD 209458 with an orbital period of 3.53 days. HD 209458 has a mass of 1.15 Solar masses. Assuming that the orbit of HD 209458b is circular (which is a good approximation here) and that its orbit lies perfectly in our line of sight, what is the radial velocity semi-amplitude of HD 209458 due to the orbital motion of HD 209458b, in m/s?<br />
<br />
(a) 69.6 m/s<br />
<br />
(b) 85.9 m/s<br />
<br />
(c) 94.2 m/s<br />
<br />
(d) 120.8 m/s<br />
<br />
4. The photon number density of a blackbody depends on temperature as $$n_{d} = a(\frac{k_{B}T}{\hbar_{c}})^{n}$$ where $$k_{B}$$ is the Boltzman constant, $$\hbar$$ is the reduced Planck’s constant, $$c$$ is the speed of light and $$T$$ is the blackbody temperature. Here, $$a$$ is a dimensionless numerical constant. What is the value of $$n$$?<br />
<br />
(a) 1<br />
<br />
(b) 2<br />
<br />
(c) 3<br />
<br />
(d) 4<br />
<br />
5. HD 209458b has a radius of 1.35 Jupiter radii, while the radius of HD 209458 is 1.20 Solar radii. What is the transit depth of HD 209458b, in percent?<br />
<br />
(a) 0.013%<br />
<br />
(b) 0.13%<br />
<br />
(c) 1.3%<br />
<br />
(d) 13%<br />
<br />
6. Which of the following is a problem of the conventional Big Bang theory that is resolved by the theory of inflation?<br />
<br />
(a) Under the conventional Big Bang theory, it is extremely unlikely for our universe to be flat or nearly flat today, contrary to observation.<br />
<br />
(b) Under the conventional Big Bang theory, it is impossible for the Cosmic Microwave Background to have come into thermal equilibrium by the time of recombination, despite its observed uniform temperature.<br />
<br />
(c) The conventional Big Bang theory predicts a huge abundance of magnetic monopoles, while no magnetic monopoles have ever been discovered.<br />
<br />
(d) All of the above<br />
<br />
7. Comet C/2020 F3 (NEOWISE) last reached perihelion on July 3, 2020. Comet NEOWISE has an orbital period of ≈ 4400 years and its eccentricity is 0.99921. What is the perihelion distance of Comet NEOWISE, in AU?<br />
<br />
(a) 0.0123 AU<br />
<br />
(b) 0.212 AU<br />
<br />
(c) 2.69 AU<br />
<br />
(d) 26.8 AU<br />
<br />
8. An astronomer detected a galaxy and decided to analyze its different parts and physical aspects. The frequency generated by a “spin-flip” transition of atomic hydrogen is $$v_{0} = 1420.406MHz$$, however it was detected on the galaxy as $$v = 1422.73$$. He finds that:<br />
<br />
1. Population I stars are (1) and are metal-(2).<br />
<br />
2. The galaxy is (3) from us with a speed of (4) $$km * s^{-1}$$.<br />
<br />
Choose the alternative that correctly completes sentences above.<br />
<br />
(a) (1) young; (2) poor; (3) distancing; (4) 245<br />
<br />
(b) (1) old; (2) rich; (3) approaching; (4) 490<br />
<br />
(c) (1)old; (2) poor; (3) distancing; (4) 490<br />
<br />
(d) (1) young; (2) rich; (3) approaching; (4) 490<br />
<br />
(e) (1) young; (2) rich; (3) approaching; (4) 245<br />
<br />
9. A stable open cluster of about $$N = 1000$$ sun-like stars has an angulardiameter of $$\theta$$ = 30 arc minutes and distance of $$d$$ = 500 pc. Assuming the cluster can be approximated by a sphere of uniform density, estimate the average velocities of stars in the cluster. The gravitational potential energy of a sphere of uniform density and radius $$r$$ is<br />
<br />
$$U_{sphere} = -\frac{3}{5}\frac{GM^{2}_{sphere}}{r}$$<br />
<br />
(a) 507 m/s<br />
<br />
(b) 643 m/s<br />
<br />
(c) 894 m/s<br />
<br />
(d) 1021 m/s<br />
<br />
(e) 771 m/s<br />
<br />
10. What would happen to the analemma of the Sun if the obliquity of the Earth’s orbit suddenly went to zero degrees and its eccentricity remained unchanged?<br />
<br />
(a) The anallema would be perfectly symmetric in both axes and would have the shape of an“8”.<br />
<br />
(b) The analemma would look like a dot.<br />
<br />
(c) The analemma would be the arc of a great circle.<br />
<br />
(d) The analemma would look like a circle.<br />
<br />
(e) The analemma would be a spherical triangle.<br />
<br />
11. Let $$T_{{\odot},C}$$ and $$T_{{\odot},S}$$ be the temperatures at the core and the surface of the sun, respectively. Similarly, let $$T_{A,C}$$ and $$T_{A,S}$$ be the temperatures at the core and surface of the red giant Arcturus, and let $$T_{S,C}$$ and $$T_{S,S}$$ be the temperatures at the core and surface of the white dwarf Sirius B. Which of the following inequalities is true?<br />
<br />
(a) $$\frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{A,C}}{T_{A,S}} < \frac{T_{S,C}}{T_{S,S}}$$<br />
<br />
(b) $$\frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{S,C}}{T_{S,S}} < \frac{T_{A,C}}{T_{A,S}}$$<br />
<br />
(c) $$\frac{T_{A,C}}{T_{A,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{S,C}}{T_{S,S}}$$<br />
<br />
(d) $$\frac{T_{S,C}}{T_{S,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{A,C}}{T_{A,S}}$$<br />
<br />
(e) $$\frac{T_{S,C}}{T_{S,S}} < \frac{T_{A,C}}{T_{A,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}}$$<br />
<br />
12. The spectral line $$H_{\alpha}$$ in the spectrum of a star is recorded as having displacement of $${\Delta}{\lambda} = 0.043 {\times} 10^{-10}$$ m. At rest, the spectral line has a wavelength of $${\lambda}_{0} = 6.536 {\times} 10^{-7}$$ m. Calculate the period of rotation for this star, if it is observed from its equatorial plane. We also know: $$R_{star} = 8 {\times} 10^{5}$$ km.<br />
<br />
(a) 29.59 days<br />
<br />
(b) 14.63 days<br />
<br />
(c) 21.15 days<br />
<br />
(d) 34.39 days<br />
<br />
13. The reflector telescope built by Sir Issac Newton was a f/5 telescope and had a primary mirror of diameter 30mm. He used an eyepiece with a focal length of 5mm. What is the focal length and magnification obtained by this telescope?<br />
<br />
(a) 150mm, 30×<br />
<br />
(b) 300mm, 15×<br />
<br />
(c) 300mm, 30×<br />
<br />
(d) 150mm, 15×<br />
<br />
14.Take a look at the following image:<br />
<br />
[[文件:Usaaao2021 exam1-14.jpg|800px]]<br />
<br />
Three Messier objects are circled in the image. Select the alternative that correctly matches each object with its type.<br />
<br />
(a) 1 - Open cluster; 2 - Open cluster; 3 - Nebula.<br />
<br />
(b) 1 - Open Cluster; 2 - Nebula; 3 - Galaxy.<br />
<br />
(c) 1 - Galaxy; 2 - Nebula; 3 - Globular cluster.<br />
<br />
(d) 1 - Open cluster; 2 - Galaxy; 3 - Globular cluster.<br />
<br />
(e) 1 - Open cluster; 2 - Nebula; 3 - Open cluster.<br />
<br />
15. An interesting phenomena that happens in the Solar System is the capture of comets in the interstellar medium. Assume that a comet with a mass of 7.15 * 10<sup>16</sup> kg is captured by the solar system. The perihelion of this comet’s orbit after it is captured is equal to 4.64 AU, and its velocity with respect to the Sun before being captured by the Solar System was very small. Calculate the velocity of the comet at the perihelion.<br />
<br />
(a) 87.1 km/s<br />
<br />
(b) 45.9 km/s<br />
<br />
(c) 5.67 km/s<br />
<br />
(d) 105.4 km/s<br />
<br />
(e) 19.6 km/s<br />
<br />
16. In a certain day, when it is 0h UT, the sidereal time of Prime Meridian is 5h 56min 9.4s. For this day, with start and end based on UT, find the civil time of Chicago, whose longitude and time zone are respectively, 87.65004722° W and UT-6, when the sidereal time there is 20h. The difference between solar time and sidereal time '''SHOULD''' be accounted for.<br />
<br />
(a) 14h 1min 32s<br />
<br />
(b) 13h 26min 17s<br />
<br />
(c) 14h 36min 47s<br />
<br />
(d) 14h 0min 43s<br />
<br />
(e) 13h 51min 11s<br />
<br />
17. Consider the following horrifying scenario. The Sun has become a Red Giant, and its radius is doubling every 100 years. Rank the following of humanity’s concerns in order of immediate importance.<br />
<br />
I: Orbital decay due to direct contact between the Earth and Sun<br />
<br />
II: As the distance between the Earth and Sun shrinks, the Earth will enter the Sun’s Roche limit and start to be ripped apart<br />
<br />
III: Orbital decay due to tidal effects on the Sun’s outer atmosphere, the same way the Moon loses energy when forming the Earth’s tides<br />
<br />
IV: Runaway greenhouse effect due to extreme temperatures, leading to the Earth becoming a hot, Venus-like planet with no habitability<br />
<br />
(a) III, IV, II, I<br />
<br />
(b) IV, III, II, I<br />
<br />
(c) IV, II, III, I<br />
<br />
(d) IV, III, I, II<br />
<br />
18. TESS Object of Interest (TOI) 402.01 has an orbital period of 4.756 ± 0.000023 (days) and was last observed to transit on 2139.1 ± 0.0027008 (in TESS Julian days, i.e. BJD - 2457000). For follow-up observation, we would like to predict the next transit – this would be the 23rd transit since the last observation. In TESS Julian days, when will the next transit occur?<br />
<br />
(a) 2243.732 ± 0.0027238 TESS JD<br />
<br />
(b) 2248.488 ± 0.000529 TESS JD<br />
<br />
(c) 2248.488 ± 0.0027238 TESS JD<br />
<br />
(d) 2248.488 ± 0.0032298 TESS JD<br />
<br />
19. Jupiter has a mass of 1.90 * 10<sup>27</sup> kg and a radius of 7.15 * 10<sup>7</sup> m. To the closest order of magnitude, estimate the pressure at the center of Jupiter, in Megabars.<br />
<br />
(a) 0.1<br />
<br />
(b) 1<br />
<br />
(c) 10<br />
<br />
(d) 100<br />
<br />
20. Which of the following statements is wrong?<br />
<br />
(a) It is believed that elements with atomic number greater than that of iron are formed mostly by the explosion of supernovas.<br />
<br />
(b) What holds a star together is the hydrostatic equilibrium between pressure and gravity.<br />
<br />
(c) The granulations of the Sun happen on its corona.<br />
<br />
(d) Protostars are actually not stars because their main source of heat is not fusion.<br />
<br />
(e) The earlier type the main-sequence star, the more massive it is.<br />
<br />
21. Consider a horizontal sundial where the triangular gnomon rises at an angle equal to the sundial site's latitude, $${\phi}$$ = 38°. If the area of the triangular gnomon is 2 m<sup>2</sup>, what would be the area of the shadow in $$m^{2}$$ three hours after the noon in the first day of spring (vernal equinox)?<br />
<br />
(a) 3.0<br />
<br />
(b) 3.5<br />
<br />
(c) 2.5<br />
<br />
(d) 1.5<br />
<br />
(e) 4.0<br />
<br />
[[文件:Usaaao2021 exam1-21.jpg|800px]]<br />
<br />
22. Consider an eclipsing binary star system observed (in some fixed band) to have a '''combined''' apparent magnitude of 5.67. During the secondary transit, the second star is totally eclipsed by the first star, and the apparent magnitude dims to 6.28. What percent of the combined flux is produced by the '''second''' star?<br />
<br />
(a) 10.8%<br />
<br />
(b) 43.0%<br />
<br />
(c) 57.0%<br />
<br />
(d) 89.2%<br />
<br />
23. An astronomer observes that a Solar type star has an apparent V magnitude of 6.73 when seen from the Earth. Assuming that the average interstellar extinction in V is 1.00 mag/kpc, determine the distance between this star and the Solar system.<br />
<br />
(a) 11.5 pc<br />
<br />
(b) 49.5 pc<br />
<br />
(c) 34.2 pc<br />
<br />
(d) 23.7 pc<br />
<br />
(e) 18.9 pc<br />
<br />
24. 1. The temperature of the Sun is 5000K while that of Sirius is 10000K. Which star has a higher integrated radiance i.e. net energy emitted per unit time per unit area?<br />
<br />
(a) Sun<br />
<br />
(b) Sirius<br />
<br />
(c) Depends on value of the respective radii<br />
<br />
(d) The integrated radiance is equal.<br />
<br />
25. Suppose a spaceship is attempting a slingshot maneuver on a gas giant with mass 100 times that of the spaceship. Because the spaceship somewhat entered the planet’s atmosphere, kinetic energy was not conserved—only momentum. What is the ratio of the spaceship’s change in velocity to the planet’s change in velocity, $$\frac{{\Delta}v_{s}}{{\Delta}v_{p}}$$?<br />
<br />
(a) 10<br />
<br />
(b) 100<br />
<br />
(c) -10<br />
<br />
(d) -100<br />
<br />
26. Let’s imagine that our Universe would be filled with basketballs, each having a mass of $$m_{b}$$ = 0.62 kg. What would be the necessary numerical density ($$n_{b}$$) of basketballs in the Universe such that the mass density of the basketballs would equal the current critical density of our Universe?<br />
<br />
(a) 1.5 * 10<sup>-26</sup> balls/$$m_{3}$$<br />
<br />
(b) 1.7 * 10<sup>26</sup> balls/$$m_{3}$$<br />
<br />
(c) 1.5 * 10<sup>-27</sup> balls/$$m_{3}$$<br />
<br />
(d) 1.7 * 10<sup>27</sup> balls/$$m_{3}$$<br />
<br />
27. When binary systems are really close together, they can execute an accretion process, in which one star (called the primary star) ”eats” the mass of the other (called the secondary star), whose mass spirals down into the primary star, creating an accretion disk!<br />
<br />
For an accretion disk with the outer edge 3R from the center of the primary star (radius R and mass M), calculate the energy lost by a test mass (mass m) where it touches the primary star from where it first enters the accretion disk.<br />
<br />
Consider the orbits to be Keplerian.<br />
<br />
(a)$$\frac{GMm}{R}$$<br />
<br />
(b)$$\frac{1}{2}\frac{GMm}{R}$$<br />
<br />
(c)$$\frac{2}{5}\frac{GMm}{R}$$<br />
<br />
(d)$$\frac{2}{3}\frac{GMm}{R}$$<br />
<br />
(e)$$\frac{3}{4}\frac{GMm}{R}$$<br />
<br />
28. An often-repeated fun fact is that humans produce more power per unit volume than stars. If the sun were the same size, but it produced the same amount of power per unit volume as a human, what would its surface temperature be? Assume the “average human” produces 100 watts of power and has a volume of 66400 cubic centimeters.<br />
<br />
(a) 3500 K<br />
<br />
(b) 10000 K<br />
<br />
(c) 25000 K<br />
<br />
(d) 40000 K<br />
<br />
(e) 50000 K<br />
<br />
29. Given that the redshift of cosmic microwave background (CMB) is 1100, what was the temperature of the Universe when photon decoupled from matter and neutral hydrogen started to get formed? The present temperature of the CMB is 2.73 K.<br />
<br />
(a) 10000 K<br />
<br />
(b) 30000 K<br />
<br />
(c) 3000 K<br />
<br />
(d) 1000 K<br />
<br />
(e) 300 K<br />
<br />
30. Where and when should we place a radio telescope such that, when combined with a radio telescope on Earth, the system could ”see” the supermassive black hole in Sculptor’s Galaxy (NGC253)?<br />
<br />
Sculptor’s Galaxy’s supermassive black hole’s mass is estimated to be around 5• 10<sup>6</sup>$$M_{\odot}$$, and its distance is estimated to be around 3.5 Mpc.<br />
<br />
Out of the options below, pick the one closest to the estimate you obtain, rounding up. Consider the energy of a radio wave to be around 10<sup>-5</sup> eV.<br />
<br />
Use the following formula to estimate the angular resolution:$${\theta}=\frac{\lambda}{D}$$<br />
<br />
(a) On the Moon when it is at its apogee.<br />
<br />
(b) On Mars when it is in conjunction.<br />
<br />
(c) On Venus when it is in its greatest elongation.<br />
<br />
(d) On one of Jupiter’s moons when it is in opposition.<br />
<br />
(e) Somewhere in the farthest points of the Oort cloud when Earth is at its perihelion.<br />
<br />
==翻译==<br />
<br />
1.2020年12月21日, 木星在$$(\alpha,\delta)=(20^{h}10^{m},-20°34′)$$。土星在哪个星座?<br />
<br />
(a) 摩羯座<br />
<br />
(b) 宝瓶座<br />
<br />
(c) 双鱼座<br />
<br />
(d) 天鹰座<br />
<br />
2.光度5.86 * 10<sup>26</sup> W,半径8.51 * 10<sup>8</sup>m的恒星光谱型是什么?<br />
<br />
(a) A<br />
<br />
(b) F<br />
<br />
(c) G<br />
<br />
(d) K<br />
<br />
(e) M<br />
<br />
3.系外行星HD209458b质量是0.71倍木星质量,绕HD209458的公转周期是3.53天。HD209458质量是1.15倍太阳质量。假设它的公转轨道是圆轨道且恰好能被我们观测到,HD209458由HD209458b公转产生的径向速度的半振幅是多少?<br />
<br />
(a) 69.6m/s<br />
<br />
(b) 85.9m/s<br />
<br />
(c) 94.2m/s<br />
<br />
(d) 120.8m/s<br />
<br />
4.黑体的光子数密度和温度的关系:$$n_{d} = a(\frac{k_{B}T}{\hbar_{c}})^{n}$$,其中$$k_{B}$$是玻尔兹曼常数,$$\hbar$$是约化普朗克常数,$$c$$是光速,$$T$$是黑体的温度。$$a$$是一个无量纲的常数。$$n$$的值是多少?<br />
<br />
(a) 1<br />
<br />
(b) 2<br />
<br />
(c) 3<br />
<br />
(d) 4<br />
<br />
5.HD209458b的半径是木星的1.35倍,HD209458的半径是太阳的1.20倍,HD209458b的掩食深度是多少?<br />
<br />
(a) 0.013%<br />
<br />
(b) 0.13%<br />
<br />
(c) 1.3%<br />
<br />
(d) 13%<br />
<br />
6.关于大爆炸理论,以下哪项是正确的?<br />
<br />
(a)在大爆炸理论下,我们的宇宙不可能是平坦的或接近平坦的,这与观测结果相符。<br />
<br />
(b)在大爆炸理论下,复合前宇宙微波背景辐射达到热平衡是不可能的,尽管我们今天观测已经达到热平衡。<br />
<br />
(c)大爆炸理论预言有大量磁单极粒子,但我们还没有观测到它。<br />
<br />
(d)以上都对<br />
<br />
7.彗星C/2020 F3(NEOWISE)于2020年6月3日到达近日点。NEOWISE的周期是4400年,轨道偏心率是0.99921。它的近日距是多少?<br />
<br />
(a) 0.0123AU<br />
<br />
(b) 0.212AU<br />
<br />
(c) 2.69AU<br />
<br />
(d) 26.8AU<br />
<br />
8.一位天文学家发现了一个星系并决定分析它不同的部分。氢原子的自旋翻转跃迁的频率$$v_{0} = 1420.406MHz$$,在这个星系中被观测到$$v=1422.73MHz$$。<br />
<br />
1. 星族I恒星(1),它们含有(2)金属。<br />
<br />
2. 这个星系正在(3)我们,它的速度是(4)$$km*s^{-1}$$。<br />
<br />
(a) (1)年轻;(2)很少;(3)远离;(4)245<br />
<br />
(b) (1)年老;(2)很多;(3)靠近;(4)490<br />
<br />
(c) (1)年老;(2)很少;(3)远离;(4)490<br />
<br />
(d) (1)年轻;(2)很多;(3)靠近;(4)490<br />
<br />
(e) (1)年轻;(2)很多;(3)靠近;(4)245<br />
<br />
9. 一个稳定的疏散星国有大约$$N = 1000$$个太阳这样的恒星,它的视直径$$\theta = 30’$$,距离$$d$$=500pc。假设这个星国可以近似成一个分布均匀的球,估计这个星团中恒星的平均速度。密度均匀的球的半径$$r$$与引力势能存在以下关系:<br />
<br />
$$U_{sphere} = -\frac{3}{5}\frac{GM^{2}_{sphere}}{r}$$<br />
<br />
(a) 507 m/s<br />
<br />
(b) 643 m/s<br />
<br />
(c) 894 m/s<br />
<br />
(d) 1021 m/s<br />
<br />
(e) 771 m/s<br />
<br />
10. 如果地球的轨道倾角变为0度,太阳的日行迹会发生什么?<br />
<br />
(a) 日行迹会呈现为一个关于两个轴的完美对称图形且仍然是“8”的形状。<br />
<br />
(b) 日行迹会变成一个点<br />
<br />
(c) 日行迹会变成一个圆<br />
<br />
(d) 日行迹会变成一个球面三角形<br />
<br />
11. 用$$T_{{\odot},C}$$和$$T_{{\odot},S}表示太阳的核心温度和表面温度。用$$T_{A,C}$$和$$T_{A,S}$表示大角星(Arcturus)的核心温度和表面温度,用$$T_{S,C}$$和$$T_{S,S}$$表示白矮星天狼星B(Sirius B)的核心温度和表面温度。以下哪个选项是正确的?<br />
<br />
(a) $$\frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{A,C}}{T_{A,S}} < \frac{T_{S,C}}{T_{S,S}}$$<br />
<br />
(b) $$\frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{S,C}}{T_{S,S}} < \frac{T_{A,C}}{T_{A,S}}$$<br />
<br />
(c) $$\frac{T_{A,C}}{T_{A,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{S,C}}{T_{S,S}}$$<br />
<br />
(d) $$\frac{T_{S,C}}{T_{S,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{A,C}}{T_{A,S}}$$<br />
<br />
(e) $$\frac{T_{S,C}}{T_{S,S}} < \frac{T_{A,C}}{T_{A,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}}$$<br />
<br />
12. 某颗恒星的$$H_{\alpha}$$谱线波长和有$${\Delta}{\lambda} = 0.043 {\times} 10^{-10}$$m的位移。静止状态下这条谱线的波长是$${\lambda}_{0} = 6.536 {\times} 10^{-7}$$m。如果这是在赤道上观测到的,请计算它的自转周期。已知这颗恒星的半径$$R_{star} = 8 {\times} 10^{5}$$km。<br />
<br />
(a) 29.59天<br />
<br />
(b) 14.63天<br />
<br />
(c) 21.15天<br />
<br />
(d) 34.39天<br />
<br />
13. 艾萨克牛顿制造的反射式望远镜是一台焦比f/5的望远镜,它有一个口径30mm的副镜。牛顿使用的目镜焦距是5mm。这台望远镜的焦距和放大倍数是多少?<br />
<br />
(a) 150mm, 30×<br />
<br />
(b) 300mm, 15×<br />
<br />
(c) 300mm, 30×<br />
<br />
(d) 150mm, 15×<br />
<br />
14. 请看下面这张图片:<br />
<br />
[[文件:Usaaao2021 exam1-14.jpg|800px]]<br />
<br />
这张图片中有三个被标记的梅西耶天体。选择出和标记相对应的类型。<br />
<br />
(a) 1 - 疏散星团;2 - 疏散星团;3 - 星云。<br />
<br />
(b) 1 - 疏散星团;2 - 星云;3 - 星系。<br />
<br />
(c) 1 - 星系;2 - 星云;3 - 球状星团。<br />
<br />
(d) 1 - 疏散星团;2 - 星系;3 - 球状星团。<br />
<br />
(e) 1 - 疏散星团;2 - 星云;3 - 疏散星团。<br />
<br />
15. 太阳系中的一个有趣现象是在星际物质中捕获彗星。假设一颗质量7.15 * 10<sup>16</sup>kg的彗星被太阳系捕获。它被捕获后的近日点是4.64AU,它在被捕获前相对于太阳的运动速度非常小。请计算它在近日点的速度。<br />
<br />
(a) 87.1 km/s<br />
<br />
(b) 45.9 km/s<br />
<br />
(c) 5.67 km/s<br />
<br />
(d) 105.4 km/s<br />
<br />
(e) 19.6 km/s<br />
<br />
16. 某一天,世界时(UT)是0h时,本初子午线上的恒星时是5h 56min 9.4s。请计算这一天芝加哥恒星时为20h时的以世界时(UT)为标准的地方时间,芝加哥的地理纬度是87.65004722° W,时区是UT-6。你应当考虑太阳时和恒星时的差异。<br />
<br />
(a) 14h 1min 32s<br />
<br />
(b) 13h 26min 17s<br />
<br />
(c) 14h 36min 47s<br />
<br />
(d) 14h 0min 43s<br />
<br />
(e) 13h 51min 11s<br />
<br />
17. 想象一个可怕的场景:太阳已经变成一颗红巨星,其半径每100年就会增加一倍。请把一下要考虑的问题按照对人类的重要性排序。<br />
<br />
I:地球和太阳接触造成的轨道衰减。<br />
<br />
II:随着地球和太阳的距离越来越小,地球将会落入太阳的洛希极限并开始被太阳撕裂。<br />
<br />
III:地球对太阳外层大气的潮汐影响引起地球的轨道衰减,就像月球形成地球的潮汐时会失去能量。<br />
<br />
IV:极度高温引发失控的温室效应使地球变成像金星一样不适宜生存。<br />
<br />
(a) III, IV, II, I<br />
<br />
(b) IV, III, II, I<br />
<br />
(c) IV, II, III, I<br />
<br />
(d) IV, III, I, II<br />
<br />
18. TESS Object of Interest (TOI) 402.01的公转周期是4.756 ± 0.000023 (days),它最后一次观测到的凌日在2139.1 ± 0.0027008(TESS儒略日,及BJD-2457000)。在接下来的观测中,我们想要预测下一次凌日——它将被观测到的第23次凌日。用TESS儒略日表示,下一次凌日在什么时间?<br />
<br />
(a) 2243.732 ± 0.0027238 TESS JD<br />
<br />
(b) 2248.488 ± 0.000529 TESS JD<br />
<br />
(c) 2248.488 ± 0.0027238 TESS JD<br />
<br />
(d) 2248.488 ± 0.0032298 TESS JD<br />
<br />
19. 木星的质量是1.90 * 10<sup>27</sup>kg,半径是7.15 * 10<sup>7</sup>m。估算木星中心的压力最接近哪个数量级,以兆巴为单位(Megabar,译者注:1bar=10<sup>5</sup>Pa)<br />
<br />
(a) 0.1<br />
<br />
(b) 1<br />
<br />
(c) 10<br />
<br />
(d) 100<br />
<br />
20. 以下哪个选项是错的?<br />
<br />
(a) 目前普遍认为恒星中重于铁的元素是超新星爆炸产生的。<br />
<br />
(b) 维持恒星的是压力和重力之间的流体静力平衡。<br />
<br />
(c) 米粒组织存在于太阳的日冕层。<br />
<br />
(d) 原恒星不是恒星,因为它们的主要热量来源不是核聚变。<br />
<br />
(e) 主序星的类型越早,质量越大。<br />
<br />
21. 这是一个水平放置的日冕,它的三角形冕针与当地的地理纬度$${\phi}$$ = 38°一致。如果三角形冕针的面积是2m<sup>2</sup>,春天第一天(春分)中午过后3小时阴影部分(Shadow)的面积是多少m<sup>2</sup>?<br />
<br />
(a) 3.0<br />
<br />
(b) 3.5<br />
<br />
(c) 2.5<br />
<br />
(d) 1.5<br />
<br />
(e) 4.0<br />
<br />
[[文件:Usaaao2021 exam1-21.jpg|800px]]<br />
<br />
22. 一个食双星系统(在特定的波段)观测时它们两个的总视星等是5.67。第二次凌日时,第二颗恒星完全被第一颗恒星遮住了,这是视星等变暗为6.28。第二颗恒星产生的总光通量战整个双星系统的多少?<br />
<br />
(a) 10.8%<br />
<br />
(b) 43.0%<br />
<br />
(c) 57.0%<br />
<br />
(d) 89.2%<br />
<br />
23. 一位天文学家在地球上观测到一颗太阳型恒星的V星等是6.73。假设V波长的平均星际消光是1.00mag/kps,计算这颗恒星和太阳系的距离。<br />
<br />
(a) 11.5 pc<br />
<br />
(b) 49.5 pc<br />
<br />
(c) 34.2 pc<br />
<br />
(d) 23.7 pc<br />
<br />
(e) 18.9 pc<br />
<br />
24. 1. 太阳的温度是5000K,天狼星(Sirius)的温度是10000K。哪颗恒星的累计辐射及单位时间单位面积辐射的净能量更大?<br />
<br />
(a) 太阳<br />
<br />
(b) 天狼星<br />
<br />
(c) 取决于它们各自的半径<br />
<br />
(d) 它们的累计辐射相等<br />
<br />
25. 假设一艘宇宙飞船正在借助一颗质量是其100倍的巨大的气体星球实现引力弹弓。由于飞船进入和它的大气,飞船的动能不再守恒,只有动量仍然守恒。宇宙飞船的速度变化与行星的速度变化之比$$\frac{{\Delta}v_{s}}{{\Delta}v_{p}}$$是多少?<br />
<br />
(a) 10<br />
<br />
(b) 100<br />
<br />
(c) -10<br />
<br />
(d) -100</div>Dg1200https://www.astro-init.top/index.php?title=CNAO2023&diff=2481CNAO20232023-05-28T15:11:07Z<p>Dg1200:</p>
<hr />
<div>2022-2023全国中学生天文知识竞赛预赛于2023年4月1日举行,决赛于5月8日-12日在天津举行。<br />
<br />
==预赛==<br />
<br />
[[预赛选择题]]<br />
<br />
==相关链接==<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c13686329d57018634b06733000c.shtml (预赛考点征集)<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c1368694762d018695cee94a0026.shtml (预赛报名通知)<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c13686d768d80186d89eef9d000c.shtml (预赛结果报名公示)<br />
<br />
https://www.bjp.org.cn/xwzx/gndt/4028c13687530175018754b67d27002e.shtml (预赛成绩公示)</div>Dg1200https://www.astro-init.top/index.php?title=2021USAAAO%E9%A2%84%E8%B5%9B%E9%80%89%E6%8B%A9%E9%A2%98&diff=24802021USAAAO预赛选择题2023-05-28T15:08:51Z<p>Dg1200:</p>
<hr />
<div>==题目==<br />
<br />
1. On December 21, 2020, Jupiter was at $$(\alpha,\delta)=(20^{h}10^{m},-20°34′)$$. Which constellation was Saturn in?<br />
<br />
(a) Capricornus<br />
<br />
(b) Aquarius<br />
<br />
(c) Pisces<br />
<br />
(d) Aquila<br />
<br />
2. What is the spectral type of a star with a luminosity of 5.86 * 10<sup>26</sup> W and radius of 8.51 * 10<sup>8</sup> m?<br />
<br />
(a) A<br />
<br />
(b) F<br />
<br />
(c) G<br />
<br />
(d) K<br />
<br />
(e) M<br />
<br />
3. The exoplanet HD 209458b has a mass of 0.71 Jupiter masses and orbits HD 209458 with an orbital period of 3.53 days. HD 209458 has a mass of 1.15 Solar masses. Assuming that the orbit of HD 209458b is circular (which is a good approximation here) and that its orbit lies perfectly in our line of sight, what is the radial velocity semi-amplitude of HD 209458 due to the orbital motion of HD 209458b, in m/s?<br />
<br />
(a) 69.6 m/s<br />
<br />
(b) 85.9 m/s<br />
<br />
(c) 94.2 m/s<br />
<br />
(d) 120.8 m/s<br />
<br />
4. The photon number density of a blackbody depends on temperature as $$n_{d} = a(\frac{k_{B}T}{\hbar_{c}})^{n}$$ where $$k_{B}$$ is the Boltzman constant, $$\hbar$$ is the reduced Planck’s constant, $$c$$ is the speed of light and $$T$$ is the blackbody temperature. Here, $$a$$ is a dimensionless numerical constant. What is the value of $$n$$?<br />
<br />
(a) 1<br />
<br />
(b) 2<br />
<br />
(c) 3<br />
<br />
(d) 4<br />
<br />
5. HD 209458b has a radius of 1.35 Jupiter radii, while the radius of HD 209458 is 1.20 Solar radii. What is the transit depth of HD 209458b, in percent?<br />
<br />
(a) 0.013%<br />
<br />
(b) 0.13%<br />
<br />
(c) 1.3%<br />
<br />
(d) 13%<br />
<br />
6. Which of the following is a problem of the conventional Big Bang theory that is resolved by the theory of inflation?<br />
<br />
(a) Under the conventional Big Bang theory, it is extremely unlikely for our universe to be flat or nearly flat today, contrary to observation.<br />
<br />
(b) Under the conventional Big Bang theory, it is impossible for the Cosmic Microwave Background to have come into thermal equilibrium by the time of recombination, despite its observed uniform temperature.<br />
<br />
(c) The conventional Big Bang theory predicts a huge abundance of magnetic monopoles, while no magnetic monopoles have ever been discovered.<br />
<br />
(d) All of the above<br />
<br />
7. Comet C/2020 F3 (NEOWISE) last reached perihelion on July 3, 2020. Comet NEOWISE has an orbital period of ≈ 4400 years and its eccentricity is 0.99921. What is the perihelion distance of Comet NEOWISE, in AU?<br />
<br />
(a) 0.0123 AU<br />
<br />
(b) 0.212 AU<br />
<br />
(c) 2.69 AU<br />
<br />
(d) 26.8 AU<br />
<br />
8. An astronomer detected a galaxy and decided to analyze its different parts and physical aspects. The frequency generated by a “spin-flip” transition of atomic hydrogen is $$v_{0} = 1420.406MHz$$, however it was detected on the galaxy as $$v = 1422.73$$. He finds that:<br />
<br />
1. Population I stars are (1) and are metal-(2).<br />
<br />
2. The galaxy is (3) from us with a speed of (4) $$km * s^{-1}$$.<br />
<br />
Choose the alternative that correctly completes sentences above.<br />
<br />
(a) (1) young; (2) poor; (3) distancing; (4) 245<br />
<br />
(b) (1) old; (2) rich; (3) approaching; (4) 490<br />
<br />
(c) (1)old; (2) poor; (3) distancing; (4) 490<br />
<br />
(d) (1) young; (2) rich; (3) approaching; (4) 490<br />
<br />
(e) (1) young; (2) rich; (3) approaching; (4) 245<br />
<br />
9. A stable open cluster of about $$N = 1000$$ sun-like stars has an angulardiameter of $$\theta$$ = 30 arc minutes and distance of $$d$$ = 500 pc. Assuming the cluster can be approximated by a sphere of uniform density, estimate the average velocities of stars in the cluster. The gravitational potential energy of a sphere of uniform density and radius $$r$$ is<br />
<br />
$$U_{sphere} = -\frac{3}{5}\frac{GM^{2}_{sphere}}{r}$$<br />
<br />
(a) 507 m/s<br />
<br />
(b) 643 m/s<br />
<br />
(c) 894 m/s<br />
<br />
(d) 1021 m/s<br />
<br />
(e) 771 m/s<br />
<br />
10. What would happen to the analemma of the Sun if the obliquity of the Earth’s orbit suddenly went to zero degrees and its eccentricity remained unchanged?<br />
<br />
(a) The anallema would be perfectly symmetric in both axes and would have the shape of an“8”.<br />
<br />
(b) The analemma would look like a dot.<br />
<br />
(c) The analemma would be the arc of a great circle.<br />
<br />
(d) The analemma would look like a circle.<br />
<br />
(e) The analemma would be a spherical triangle.<br />
<br />
11. Let $$T_{{\odot},C}$$ and $$T_{{\odot},S}$$ be the temperatures at the core and the surface of the sun, respectively. Similarly, let $$T_{A,C}$$ and $$T_{A,S}$$ be the temperatures at the core and surface of the red giant Arcturus, and let $$T_{S,C}$$ and $$T_{S,S}$$ be the temperatures at the core and surface of the white dwarf Sirius B. Which of the following inequalities is true?<br />
<br />
(a) $$\frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{A,C}}{T_{A,S}} < \frac{T_{S,C}}{T_{S,S}}$$<br />
<br />
(b) $$\frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{S,C}}{T_{S,S}} < \frac{T_{A,C}}{T_{A,S}}$$<br />
<br />
(c) $$\frac{T_{A,C}}{T_{A,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{S,C}}{T_{S,S}}$$<br />
<br />
(d) $$\frac{T_{S,C}}{T_{S,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{A,C}}{T_{A,S}}$$<br />
<br />
(e) $$\frac{T_{S,C}}{T_{S,S}} < \frac{T_{A,C}}{T_{A,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}}$$<br />
<br />
12. The spectral line $$H_{\alpha}$$ in the spectrum of a star is recorded as having displacement of $${\Delta}{\lambda} = 0.043 {\times} 10^{-10}$$ m. At rest, the spectral line has a wavelength of $${\lambda}_{0} = 6.536 {\times} 10^{-7}$$ m. Calculate the period of rotation for this star, if it is observed from its equatorial plane. We also know: $$R_{star} = 8 {\times} 10^{5}$$ km.<br />
<br />
(a) 29.59 days<br />
<br />
(b) 14.63 days<br />
<br />
(c) 21.15 days<br />
<br />
(d) 34.39 days<br />
<br />
13. The reflector telescope built by Sir Issac Newton was a f/5 telescope and had a primary mirror of diameter 30mm. He used an eyepiece with a focal length of 5mm. What is the focal length and magnification obtained by this telescope?<br />
<br />
(a) 150mm, 30×<br />
<br />
(b) 300mm, 15×<br />
<br />
(c) 300mm, 30×<br />
<br />
(d) 150mm, 15×<br />
<br />
14.Take a look at the following image:<br />
<br />
[[文件:Usaaao2021 exam1-14.jpg|800px]]<br />
<br />
Three Messier objects are circled in the image. Select the alternative that correctly matches each object with its type.<br />
<br />
(a) 1 - Open cluster; 2 - Open cluster; 3 - Nebula.<br />
<br />
(b) 1 - Open Cluster; 2 - Nebula; 3 - Galaxy.<br />
<br />
(c) 1 - Galaxy; 2 - Nebula; 3 - Globular cluster.<br />
<br />
(d) 1 - Open cluster; 2 - Galaxy; 3 - Globular cluster.<br />
<br />
(e) 1 - Open cluster; 2 - Nebula; 3 - Open cluster.<br />
<br />
15. An interesting phenomena that happens in the Solar System is the capture of comets in the interstellar medium. Assume that a comet with a mass of 7.15 * 10<sup>16</sup> kg is captured by the solar system. The perihelion of this comet’s orbit after it is captured is equal to 4.64 AU, and its velocity with respect to the Sun before being captured by the Solar System was very small. Calculate the velocity of the comet at the perihelion.<br />
<br />
(a) 87.1 km/s<br />
<br />
(b) 45.9 km/s<br />
<br />
(c) 5.67 km/s<br />
<br />
(d) 105.4 km/s<br />
<br />
(e) 19.6 km/s<br />
<br />
16. In a certain day, when it is 0h UT, the sidereal time of Prime Meridian is 5h 56min 9.4s. For this day, with start and end based on UT, find the civil time of Chicago, whose longitude and time zone are respectively, 87.65004722° W and UT-6, when the sidereal time there is 20h. The difference between solar time and sidereal time '''SHOULD''' be accounted for.<br />
<br />
(a) 14h 1min 32s<br />
<br />
(b) 13h 26min 17s<br />
<br />
(c) 14h 36min 47s<br />
<br />
(d) 14h 0min 43s<br />
<br />
(e) 13h 51min 11s<br />
<br />
17. Consider the following horrifying scenario. The Sun has become a Red Giant, and its radius is doubling every 100 years. Rank the following of humanity’s concerns in order of immediate importance.<br />
<br />
I: Orbital decay due to direct contact between the Earth and Sun<br />
<br />
II: As the distance between the Earth and Sun shrinks, the Earth will enter the Sun’s Roche limit and start to be ripped apart<br />
<br />
III: Orbital decay due to tidal effects on the Sun’s outer atmosphere, the same way the Moon loses energy when forming the Earth’s tides<br />
<br />
IV: Runaway greenhouse effect due to extreme temperatures, leading to the Earth becoming a hot, Venus-like planet with no habitability<br />
<br />
(a) III, IV, II, I<br />
<br />
(b) IV, III, II, I<br />
<br />
(c) IV, II, III, I<br />
<br />
(d) IV, III, I, II<br />
<br />
18. TESS Object of Interest (TOI) 402.01 has an orbital period of 4.756 ± 0.000023 (days) and was last observed to transit on 2139.1 ± 0.0027008 (in TESS Julian days, i.e. BJD - 2457000). For follow-up observation, we would like to predict the next transit – this would be the 23rd transit since the last observation. In TESS Julian days, when will the next transit occur?<br />
<br />
(a) 2243.732 ± 0.0027238 TESS JD<br />
<br />
(b) 2248.488 ± 0.000529 TESS JD<br />
<br />
(c) 2248.488 ± 0.0027238 TESS JD<br />
<br />
(d) 2248.488 ± 0.0032298 TESS JD<br />
<br />
19. Jupiter has a mass of 1.90 * 10<sup>27</sup> kg and a radius of 7.15 * 10<sup>7</sup> m. To the closest order of magnitude, estimate the pressure at the center of Jupiter, in Megabars.<br />
<br />
(a) 0.1<br />
<br />
(b) 1<br />
<br />
(c) 10<br />
<br />
(d) 100<br />
<br />
20. Which of the following statements is wrong?<br />
<br />
(a) It is believed that elements with atomic number greater than that of iron are formed mostly by the explosion of supernovas.<br />
<br />
(b) What holds a star together is the hydrostatic equilibrium between pressure and gravity.<br />
<br />
(c) The granulations of the Sun happen on its corona.<br />
<br />
(d) Protostars are actually not stars because their main source of heat is not fusion.<br />
<br />
(e) The earlier type the main-sequence star, the more massive it is.<br />
<br />
21. Consider a horizontal sundial where the triangular gnomon rises at an angle equal to the sundial site's latitude, $${\phi}$$ = 38°. If the area of the triangular gnomon is 2 m<sup>2</sup>, what would be the area of the shadow in $$m^{2}$$ three hours after the noon in the first day of spring (vernal equinox)?<br />
<br />
(a) 3.0<br />
<br />
(b) 3.5<br />
<br />
(c) 2.5<br />
<br />
(d) 1.5<br />
<br />
(e) 4.0<br />
<br />
[[文件:Usaaao2021 exam1-21.jpg|800px]]<br />
<br />
22. Consider an eclipsing binary star system observed (in some fixed band) to have a '''combined''' apparent magnitude of 5.67. During the secondary transit, the second star is totally eclipsed by the first star, and the apparent magnitude dims to 6.28. What percent of the combined flux is produced by the '''second''' star?<br />
<br />
(a) 10.8%<br />
<br />
(b) 43.0%<br />
<br />
(c) 57.0%<br />
<br />
(d) 89.2%<br />
<br />
23. An astronomer observes that a Solar type star has an apparent V magnitude of 6.73 when seen from the Earth. Assuming that the average interstellar extinction in V is 1.00 mag/kpc, determine the distance between this star and the Solar system.<br />
<br />
(a) 11.5 pc<br />
<br />
(b) 49.5 pc<br />
<br />
(c) 34.2 pc<br />
<br />
(d) 23.7 pc<br />
<br />
(e) 18.9 pc<br />
<br />
24. 1. The temperature of the Sun is 5000K while that of Sirius is 10000K. Which star has a higher integrated radiance i.e. net energy emitted per unit time per unit area?<br />
<br />
(a) Sun<br />
<br />
(b) Sirius<br />
<br />
(c) Depends on value of the respective radii<br />
<br />
(d) The integrated radiance is equal.<br />
<br />
25. Suppose a spaceship is attempting a slingshot maneuver on a gas giant with mass 100 times that of the spaceship. Because the spaceship somewhat entered the planet’s atmosphere, kinetic energy was not conserved—only momentum. What is the ratio of the spaceship’s change in velocity to the planet’s change in velocity, $$\frac{{\Delta}v_{s}}{{\Delta}v_{p}}$$?<br />
<br />
(a) 10<br />
<br />
(b) 100<br />
<br />
(c) -10<br />
<br />
(d) -100<br />
<br />
26. Let’s imagine that our Universe would be filled with basketballs, each having a mass of $$m_{b}$$ = 0.62 kg. What would be the necessary numerical density ($$n_{b}$$) of basketballs in the Universe such that the mass density of the basketballs would equal the current critical density of our Universe?<br />
<br />
(a) 1.5 * 10<sup>-26</sup> balls/$$m_{3}$$<br />
<br />
(b) 1.7 * 10<sup>26</sup> balls/$$m_{3}$$<br />
<br />
(c) 1.5 * 10<sup>-27</sup> balls/$$m_{3}$$<br />
<br />
(d) 1.7 * 10<sup>27</sup> balls/$$m_{3}$$<br />
<br />
27. When binary systems are really close together, they can execute an accretion process, in which one star (called the primary star) ”eats” the mass of the other (called the secondary star), whose mass spirals down into the primary star, creating an accretion disk!<br />
<br />
For an accretion disk with the outer edge 3R from the center of the primary star (radius R and mass M), calculate the energy lost by a test mass (mass m) where it touches the primary star from where it first enters the accretion disk.<br />
<br />
Consider the orbits to be Keplerian.<br />
<br />
(a)$$\frac{GMm}{R}$$<br />
<br />
(b)$$\frac{1}{2}\frac{GMm}{R}$$<br />
<br />
(c)$$\frac{2}{5}\frac{GMm}{R}$$<br />
<br />
(d)$$\frac{2}{3}\frac{GMm}{R}$$<br />
<br />
(e)$$\frac{3}{4}\frac{GMm}{R}$$<br />
<br />
28. An often-repeated fun fact is that humans produce more power per unit volume than stars. If the sun were the same size, but it produced the same amount of power per unit volume as a human, what would its surface temperature be? Assume the “average human” produces 100 watts of power and has a volume of 66400 cubic centimeters.<br />
<br />
(a) 3500 K<br />
<br />
(b) 10000 K<br />
<br />
(c) 25000 K<br />
<br />
(d) 40000 K<br />
<br />
(e) 50000 K<br />
<br />
29. Given that the redshift of cosmic microwave background (CMB) is 1100, what was the temperature of the Universe when photon decoupled from matter and neutral hydrogen started to get formed? The present temperature of the CMB is 2.73 K.<br />
<br />
(a) 10000 K<br />
<br />
(b) 30000 K<br />
<br />
(c) 3000 K<br />
<br />
(d) 1000 K<br />
<br />
(e) 300 K<br />
<br />
30. Where and when should we place a radio telescope such that, when combined with a radio telescope on Earth, the system could ”see” the supermassive black hole in Sculptor’s Galaxy (NGC253)?<br />
<br />
Sculptor’s Galaxy’s supermassive black hole’s mass is estimated to be around 5• 10<sup>6</sup>$$M_{\odot}$$, and its distance is estimated to be around 3.5 Mpc.<br />
<br />
Out of the options below, pick the one closest to the estimate you obtain, rounding up. Consider the energy of a radio wave to be around 10<sup>-5</sup> eV.<br />
<br />
Use the following formula to estimate the angular resolution:$${\theta}=\frac{\lambda}{D}$$<br />
<br />
(a) On the Moon when it is at its apogee.<br />
<br />
(b) On Mars when it is in conjunction.<br />
<br />
(c) On Venus when it is in its greatest elongation.<br />
<br />
(d) On one of Jupiter’s moons when it is in opposition.<br />
<br />
(e) Somewhere in the farthest points of the Oort cloud when Earth is at its perihelion.<br />
<br />
==翻译==<br />
<br />
1.2020年12月21日, 木星在$$(\alpha,\delta)=(20^{h}10^{m},-20°34′)$$。土星在哪个星座?<br />
<br />
(a) 摩羯座<br />
<br />
(b) 宝瓶座<br />
<br />
(c) 双鱼座<br />
<br />
(d) 天鹰座<br />
<br />
2.光度5.86 * 10<sup>26</sup> W,半径8.51 * 10<sup>8</sup>m的恒星光谱型是什么?<br />
<br />
(a) A<br />
<br />
(b) F<br />
<br />
(c) G<br />
<br />
(d) K<br />
<br />
(e) M<br />
<br />
3.系外行星HD209458b质量是0.71倍木星质量,绕HD209458的公转周期是3.53天。HD209458质量是1.15倍太阳质量。假设它的公转轨道是圆轨道且恰好能被我们观测到,HD209458由HD209458b公转产生的径向速度的半振幅是多少?<br />
<br />
(a) 69.6m/s<br />
<br />
(b) 85.9m/s<br />
<br />
(c) 94.2m/s<br />
<br />
(d) 120.8m/s<br />
<br />
4.黑体的光子数密度和温度的关系:$$n_{d} = a(\frac{k_{B}T}{\hbar_{c}})^{n}$$,其中$$k_{B}$$是玻尔兹曼常数,$$\hbar$$是约化普朗克常数,$$c$$是光速,$$T$$是黑体的温度。$$a$$是一个无量纲的常数。$$n$$的值是多少?<br />
<br />
(a) 1<br />
<br />
(b) 2<br />
<br />
(c) 3<br />
<br />
(d) 4<br />
<br />
5.HD209458b的半径是木星的1.35倍,HD209458的半径是太阳的1.20倍,HD209458b的掩食深度是多少?<br />
<br />
(a) 0.013%<br />
<br />
(b) 0.13%<br />
<br />
(c) 1.3%<br />
<br />
(d) 13%<br />
<br />
6.关于大爆炸理论,以下哪项是正确的?<br />
<br />
(a)在大爆炸理论下,我们的宇宙不可能是平坦的或接近平坦的,这与观测结果相符。<br />
<br />
(b)在大爆炸理论下,复合前宇宙微波背景辐射达到热平衡是不可能的,尽管我们今天观测已经达到热平衡。<br />
<br />
(c)大爆炸理论预言有大量磁单极粒子,但我们还没有观测到它。<br />
<br />
(d)以上都对<br />
<br />
7.彗星C/2020 F3(NEOWISE)于2020年6月3日到达近日点。NEOWISE的周期是4400年,轨道偏心率是0.99921。它的近日距是多少?<br />
<br />
(a) 0.0123AU<br />
<br />
(b) 0.212AU<br />
<br />
(c) 2.69AU<br />
<br />
(d) 26.8AU<br />
<br />
8.一位天文学家发现了一个星系并决定分析它不同的部分。氢原子的自旋翻转跃迁的频率$$v_{0} = 1420.406MHz$$,在这个星系中被观测到$$v=1422.73MHz$$。<br />
<br />
1. 星族I恒星(1),它们含有(2)金属。<br />
<br />
2. 这个星系正在(3)我们,它的速度是(4)$$km*s^{-1}$$。<br />
<br />
(a) (1)年轻;(2)很少;(3)远离;(4)245<br />
<br />
(b) (1)年老;(2)很多;(3)靠近;(4)490<br />
<br />
(c) (1)年老;(2)很少;(3)远离;(4)490<br />
<br />
(d) (1)年轻;(2)很多;(3)靠近;(4)490<br />
<br />
(e) (1)年轻;(2)很多;(3)靠近;(4)245<br />
<br />
9. 一个稳定的疏散星国有大约$$N = 1000$$个太阳这样的恒星,它的视直径$$\theta = 30’$$,距离$$d$$=500pc。假设这个星国可以近似成一个分布均匀的球,估计这个星团中恒星的平均速度。密度均匀的球的半径$$r$$与引力势能存在以下关系:<br />
<br />
$$U_{sphere} = -\frac{3}{5}\frac{GM^{2}_{sphere}}{r}$$<br />
<br />
(a) 507 m/s<br />
<br />
(b) 643 m/s<br />
<br />
(c) 894 m/s<br />
<br />
(d) 1021 m/s<br />
<br />
(e) 771 m/s<br />
<br />
10. 如果地球的轨道倾角变为0度,太阳的日行迹会发生什么?<br />
<br />
(a) 日行迹会呈现为一个关于两个轴的完美对称图形且仍然是“8”的形状。<br />
<br />
(b) 日行迹会变成一个点<br />
<br />
(c) 日行迹会变成一个圆<br />
<br />
(d) 日行迹会变成一个球面三角形<br />
<br />
11. 用$$T_{{\odot},C}$$和$$T_{{\odot},S}表示太阳的核心温度和表面温度。用$$T_{A,C}$$和$$T_{A,S}$表示大角星(Arcturus)的核心温度和表面温度,用$$T_{S,C}$$和$$T_{S,S}$$表示白矮星天狼星B(Sirius B)的核心温度和表面温度。以下哪个选项是正确的?<br />
<br />
(a) $$\frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{A,C}}{T_{A,S}} < \frac{T_{S,C}}{T_{S,S}}$$<br />
<br />
(b) $$\frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{S,C}}{T_{S,S}} < \frac{T_{A,C}}{T_{A,S}}$$<br />
<br />
(c) $$\frac{T_{A,C}}{T_{A,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{S,C}}{T_{S,S}}$$<br />
<br />
(d) $$\frac{T_{S,C}}{T_{S,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{A,C}}{T_{A,S}}$$<br />
<br />
(e) $$\frac{T_{S,C}}{T_{S,S}} < \frac{T_{A,C}}{T_{A,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}}$$<br />
<br />
12. 某颗恒星的$$H_{\alpha}$$谱线波长和有$${\Delta}{\lambda} = 0.043 {\times} 10^{-10}$$m的位移。静止状态下这条谱线的波长是$${\lambda}_{0} = 6.536 {\times} 10^{-7}$$m。如果这是在赤道上观测到的,请计算它的自转周期。已知这颗恒星的半径$$R_{star} = 8 {\times} 10^{5}$$km。<br />
<br />
(a) 29.59天<br />
<br />
(b) 14.63天<br />
<br />
(c) 21.15天<br />
<br />
(d) 34.39天<br />
<br />
13. 艾萨克牛顿制造的反射式望远镜是一台焦比f/5的望远镜,它有一个口径30mm的副镜。牛顿使用的目镜焦距是5mm。这台望远镜的焦距和放大倍数是多少?<br />
<br />
(a) 150mm, 30×<br />
<br />
(b) 300mm, 15×<br />
<br />
(c) 300mm, 30×<br />
<br />
(d) 150mm, 15×<br />
<br />
14. 请看下面这张图片:<br />
<br />
[[文件:Usaaao2021 exam1-14.jpg|800px]]<br />
<br />
这张图片中有三个被标记的梅西耶天体。选择出和标记相对应的类型。<br />
<br />
(a) 1 - 疏散星团;2 - 疏散星团;3 - 星云。<br />
<br />
(b) 1 - 疏散星团;2 - 星云;3 - 星系。<br />
<br />
(c) 1 - 星系;2 - 星云;3 - 球状星团。<br />
<br />
(d) 1 - 疏散星团;2 - 星系;3 - 球状星团。<br />
<br />
(e) 1 - 疏散星团;2 - 星云;3 - 疏散星团。<br />
<br />
15. 太阳系中的一个有趣现象是在星际物质中捕获彗星。假设一颗质量7.15 * 10<sup>16</sup>kg的彗星被太阳系捕获。它被捕获后的近日点是4.64AU,它在被捕获前相对于太阳的运动速度非常小。请计算它在近日点的速度。<br />
<br />
(a) 87.1 km/s<br />
<br />
(b) 45.9 km/s<br />
<br />
(c) 5.67 km/s<br />
<br />
(d) 105.4 km/s<br />
<br />
(e) 19.6 km/s<br />
<br />
16. 某一天,世界时(UT)是0h时,本初子午线上的恒星时是5h 56min 9.4s。请计算这一天芝加哥恒星时为20h时的以世界时(UT)为标准的地方时间,芝加哥的地理纬度是87.65004722° W,时区是UT-6。你应当考虑太阳时和恒星时的差异。<br />
<br />
(a) 14h 1min 32s<br />
<br />
(b) 13h 26min 17s<br />
<br />
(c) 14h 36min 47s<br />
<br />
(d) 14h 0min 43s<br />
<br />
(e) 13h 51min 11s<br />
<br />
17. 想象一个可怕的场景:太阳已经变成一颗红巨星,其半径每100年就会增加一倍。请把一下要考虑的问题按照对人类的重要性排序。<br />
<br />
I:地球和太阳接触造成的轨道衰减。<br />
<br />
II:随着地球和太阳的距离越来越小,地球将会落入太阳的洛希极限并开始被太阳撕裂。<br />
<br />
III:地球对太阳外层大气的潮汐影响引起地球的轨道衰减,就像月球形成地球的潮汐时会失去能量。<br />
<br />
IV:极度高温引发失控的温室效应使地球变成像金星一样不适宜生存。<br />
<br />
(a) III, IV, II, I<br />
<br />
(b) IV, III, II, I<br />
<br />
(c) IV, II, III, I<br />
<br />
(d) IV, III, I, II</div>Dg1200https://www.astro-init.top/index.php?title=2021USAAAO%E9%A2%84%E8%B5%9B%E9%80%89%E6%8B%A9%E9%A2%98&diff=24792021USAAAO预赛选择题2023-05-28T15:05:46Z<p>Dg1200:</p>
<hr />
<div>==题目==<br />
<br />
1. On December 21, 2020, Jupiter was at $$(\alpha,\delta)=(20^{h}10^{m},-20°34′)$$. Which constellation was Saturn in?<br />
<br />
(a) Capricornus<br />
<br />
(b) Aquarius<br />
<br />
(c) Pisces<br />
<br />
(d) Aquila<br />
<br />
2. What is the spectral type of a star with a luminosity of 5.86 * 10<sup>26</sup> W and radius of 8.51 * 10<sup>8</sup> m?<br />
<br />
(a) A<br />
<br />
(b) F<br />
<br />
(c) G<br />
<br />
(d) K<br />
<br />
(e) M<br />
<br />
3. The exoplanet HD 209458b has a mass of 0.71 Jupiter masses and orbits HD 209458 with an orbital period of 3.53 days. HD 209458 has a mass of 1.15 Solar masses. Assuming that the orbit of HD 209458b is circular (which is a good approximation here) and that its orbit lies perfectly in our line of sight, what is the radial velocity semi-amplitude of HD 209458 due to the orbital motion of HD 209458b, in m/s?<br />
<br />
(a) 69.6 m/s<br />
<br />
(b) 85.9 m/s<br />
<br />
(c) 94.2 m/s<br />
<br />
(d) 120.8 m/s<br />
<br />
4. The photon number density of a blackbody depends on temperature as $$n_{d} = a(\frac{k_{B}T}{\hbar_{c}})^{n}$$ where $$k_{B}$$ is the Boltzman constant, $$\hbar$$ is the reduced Planck’s constant, $$c$$ is the speed of light and $$T$$ is the blackbody temperature. Here, $$a$$ is a dimensionless numerical constant. What is the value of $$n$$?<br />
<br />
(a) 1<br />
<br />
(b) 2<br />
<br />
(c) 3<br />
<br />
(d) 4<br />
<br />
5. HD 209458b has a radius of 1.35 Jupiter radii, while the radius of HD 209458 is 1.20 Solar radii. What is the transit depth of HD 209458b, in percent?<br />
<br />
(a) 0.013%<br />
<br />
(b) 0.13%<br />
<br />
(c) 1.3%<br />
<br />
(d) 13%<br />
<br />
6. Which of the following is a problem of the conventional Big Bang theory that is resolved by the theory of inflation?<br />
<br />
(a) Under the conventional Big Bang theory, it is extremely unlikely for our universe to be flat or nearly flat today, contrary to observation.<br />
<br />
(b) Under the conventional Big Bang theory, it is impossible for the Cosmic Microwave Background to have come into thermal equilibrium by the time of recombination, despite its observed uniform temperature.<br />
<br />
(c) The conventional Big Bang theory predicts a huge abundance of magnetic monopoles, while no magnetic monopoles have ever been discovered.<br />
<br />
(d) All of the above<br />
<br />
7. Comet C/2020 F3 (NEOWISE) last reached perihelion on July 3, 2020. Comet NEOWISE has an orbital period of ≈ 4400 years and its eccentricity is 0.99921. What is the perihelion distance of Comet NEOWISE, in AU?<br />
<br />
(a) 0.0123 AU<br />
<br />
(b) 0.212 AU<br />
<br />
(c) 2.69 AU<br />
<br />
(d) 26.8 AU<br />
<br />
8. An astronomer detected a galaxy and decided to analyze its different parts and physical aspects. The frequency generated by a “spin-flip” transition of atomic hydrogen is $$v_{0} = 1420.406MHz$$, however it was detected on the galaxy as $$v = 1422.73$$. He finds that:<br />
<br />
1. Population I stars are (1) and are metal-(2).<br />
<br />
2. The galaxy is (3) from us with a speed of (4) $$km * s^{-1}$$.<br />
<br />
Choose the alternative that correctly completes sentences above.<br />
<br />
(a) (1) young; (2) poor; (3) distancing; (4) 245<br />
<br />
(b) (1) old; (2) rich; (3) approaching; (4) 490<br />
<br />
(c) (1)old; (2) poor; (3) distancing; (4) 490<br />
<br />
(d) (1) young; (2) rich; (3) approaching; (4) 490<br />
<br />
(e) (1) young; (2) rich; (3) approaching; (4) 245<br />
<br />
9. A stable open cluster of about $$N = 1000$$ sun-like stars has an angulardiameter of $$\theta$$ = 30 arc minutes and distance of $$d$$ = 500 pc. Assuming the cluster can be approximated by a sphere of uniform density, estimate the average velocities of stars in the cluster. The gravitational potential energy of a sphere of uniform density and radius $$r$$ is<br />
<br />
$$U_{sphere} = -\frac{3}{5}\frac{GM^{2}_{sphere}}{r}$$<br />
<br />
(a) 507 m/s<br />
<br />
(b) 643 m/s<br />
<br />
(c) 894 m/s<br />
<br />
(d) 1021 m/s<br />
<br />
(e) 771 m/s<br />
<br />
10. What would happen to the analemma of the Sun if the obliquity of the Earth’s orbit suddenly went to zero degrees and its eccentricity remained unchanged?<br />
<br />
(a) The anallema would be perfectly symmetric in both axes and would have the shape of an“8”.<br />
<br />
(b) The analemma would look like a dot.<br />
<br />
(c) The analemma would be the arc of a great circle.<br />
<br />
(d) The analemma would look like a circle.<br />
<br />
(e) The analemma would be a spherical triangle.<br />
<br />
11. Let $$T_{{\odot},C}$$ and $$T_{{\odot},S}$$ be the temperatures at the core and the surface of the sun, respectively. Similarly, let $$T_{A,C}$$ and $$T_{A,S}$$ be the temperatures at the core and surface of the red giant Arcturus, and let $$T_{S,C}$$ and $$T_{S,S}$$ be the temperatures at the core and surface of the white dwarf Sirius B. Which of the following inequalities is true?<br />
<br />
(a) $$\frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{A,C}}{T_{A,S}} < \frac{T_{S,C}}{T_{S,S}}$$<br />
<br />
(b) $$\frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{S,C}}{T_{S,S}} < \frac{T_{A,C}}{T_{A,S}}$$<br />
<br />
(c) $$\frac{T_{A,C}}{T_{A,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{S,C}}{T_{S,S}}$$<br />
<br />
(d) $$\frac{T_{S,C}}{T_{S,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{A,C}}{T_{A,S}}$$<br />
<br />
(e) $$\frac{T_{S,C}}{T_{S,S}} < \frac{T_{A,C}}{T_{A,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}}$$<br />
<br />
12. The spectral line $$H_{\alpha}$$ in the spectrum of a star is recorded as having displacement of $${\Delta}{\lambda} = 0.043 {\times} 10^{-10}$$ m. At rest, the spectral line has a wavelength of $${\lambda}_{0} = 6.536 {\times} 10^{-7}$$ m. Calculate the period of rotation for this star, if it is observed from its equatorial plane. We also know: $$R_{star} = 8 {\times} 10^{5}$$ km.<br />
<br />
(a) 29.59 days<br />
<br />
(b) 14.63 days<br />
<br />
(c) 21.15 days<br />
<br />
(d) 34.39 days<br />
<br />
13. The reflector telescope built by Sir Issac Newton was a f/5 telescope and had a primary mirror of diameter 30mm. He used an eyepiece with a focal length of 5mm. What is the focal length and magnification obtained by this telescope?<br />
<br />
(a) 150mm, 30×<br />
<br />
(b) 300mm, 15×<br />
<br />
(c) 300mm, 30×<br />
<br />
(d) 150mm, 15×<br />
<br />
14.Take a look at the following image:<br />
<br />
[[文件:Usaaao2021 exam1-14.jpg|800px]]<br />
<br />
Three Messier objects are circled in the image. Select the alternative that correctly matches each object with its type.<br />
<br />
(a) 1 - Open cluster; 2 - Open cluster; 3 - Nebula.<br />
<br />
(b) 1 - Open Cluster; 2 - Nebula; 3 - Galaxy.<br />
<br />
(c) 1 - Galaxy; 2 - Nebula; 3 - Globular cluster.<br />
<br />
(d) 1 - Open cluster; 2 - Galaxy; 3 - Globular cluster.<br />
<br />
(e) 1 - Open cluster; 2 - Nebula; 3 - Open cluster.<br />
<br />
15. An interesting phenomena that happens in the Solar System is the capture of comets in the interstellar medium. Assume that a comet with a mass of 7.15 * 10<sup>16</sup> kg is captured by the solar system. The perihelion of this comet’s orbit after it is captured is equal to 4.64 AU, and its velocity with respect to the Sun before being captured by the Solar System was very small. Calculate the velocity of the comet at the perihelion.<br />
<br />
(a) 87.1 km/s<br />
<br />
(b) 45.9 km/s<br />
<br />
(c) 5.67 km/s<br />
<br />
(d) 105.4 km/s<br />
<br />
(e) 19.6 km/s<br />
<br />
16. In a certain day, when it is 0h UT, the sidereal time of Prime Meridian is 5h 56min 9.4s. For this day, with start and end based on UT, find the civil time of Chicago, whose longitude and time zone are respectively, 87.65004722° W and UT-6, when the sidereal time there is 20h. The difference between solar time and sidereal time '''SHOULD''' be accounted for.<br />
<br />
(a) 14h 1min 32s<br />
<br />
(b) 13h 26min 17s<br />
<br />
(c) 14h 36min 47s<br />
<br />
(d) 14h 0min 43s<br />
<br />
(e) 13h 51min 11s<br />
<br />
17. Consider the following horrifying scenario. The Sun has become a Red Giant, and its radius is doubling every 100 years. Rank the following of humanity’s concerns in order of immediate importance.<br />
<br />
I: Orbital decay due to direct contact between the Earth and Sun<br />
<br />
II: As the distance between the Earth and Sun shrinks, the Earth will enter the Sun’s Roche limit and start to be ripped apart<br />
<br />
III: Orbital decay due to tidal effects on the Sun’s outer atmosphere, the same way the Moon loses energy when forming the Earth’s tides<br />
<br />
IV: Runaway greenhouse effect due to extreme temperatures, leading to the Earth becoming a hot, Venus-like planet with no habitability<br />
<br />
(a) III, IV, II, I<br />
<br />
(b) IV, III, II, I<br />
<br />
(c) IV, II, III, I<br />
<br />
(d) IV, III, I, II<br />
<br />
18. TESS Object of Interest (TOI) 402.01 has an orbital period of 4.756 ± 0.000023 (days) and was last observed to transit on 2139.1 ± 0.0027008 (in TESS Julian days, i.e. BJD - 2457000). For follow-up observation, we would like to predict the next transit – this would be the 23rd transit since the last observation. In TESS Julian days, when will the next transit occur?<br />
<br />
(a) 2243.732 ± 0.0027238 TESS JD<br />
<br />
(b) 2248.488 ± 0.000529 TESS JD<br />
<br />
(c) 2248.488 ± 0.0027238 TESS JD<br />
<br />
(d) 2248.488 ± 0.0032298 TESS JD<br />
<br />
19. Jupiter has a mass of 1.90 * 10<sup>27</sup> kg and a radius of 7.15 * 10<sup>7</sup> m. To the closest order of magnitude, estimate the pressure at the center of Jupiter, in Megabars.<br />
<br />
(a) 0.1<br />
<br />
(b) 1<br />
<br />
(c) 10<br />
<br />
(d) 100<br />
<br />
20. Which of the following statements is wrong?<br />
<br />
(a) It is believed that elements with atomic number greater than that of iron are formed mostly by the explosion of supernovas.<br />
<br />
(b) What holds a star together is the hydrostatic equilibrium between pressure and gravity.<br />
<br />
(c) The granulations of the Sun happen on its corona.<br />
<br />
(d) Protostars are actually not stars because their main source of heat is not fusion.<br />
<br />
(e) The earlier type the main-sequence star, the more massive it is.<br />
<br />
21. Consider a horizontal sundial where the triangular gnomon rises at an angle equal to the sundial site's latitude, $${\phi}$$ = 38°. If the area of the triangular gnomon is 2 m<sup>2</sup>, what would be the area of the shadow in $$m^{2}$$ three hours after the noon in the first day of spring (vernal equinox)?<br />
<br />
(a) 3.0<br />
<br />
(b) 3.5<br />
<br />
(c) 2.5<br />
<br />
(d) 1.5<br />
<br />
(e) 4.0<br />
<br />
[[文件:Usaaao2021 exam1-21.jpg|800px]]<br />
<br />
22. Consider an eclipsing binary star system observed (in some fixed band) to have a '''combined''' apparent magnitude of 5.67. During the secondary transit, the second star is totally eclipsed by the first star, and the apparent magnitude dims to 6.28. What percent of the combined flux is produced by the '''second''' star?<br />
<br />
(a) 10.8%<br />
<br />
(b) 43.0%<br />
<br />
(c) 57.0%<br />
<br />
(d) 89.2%<br />
<br />
23. An astronomer observes that a Solar type star has an apparent V magnitude of 6.73 when seen from the Earth. Assuming that the average interstellar extinction in V is 1.00 mag/kpc, determine the distance between this star and the Solar system.<br />
<br />
(a) 11.5 pc<br />
<br />
(b) 49.5 pc<br />
<br />
(c) 34.2 pc<br />
<br />
(d) 23.7 pc<br />
<br />
(e) 18.9 pc<br />
<br />
24. 1. The temperature of the Sun is 5000K while that of Sirius is 10000K. Which star has a higher integrated radiance i.e. net energy emitted per unit time per unit area?<br />
<br />
(a) Sun<br />
<br />
(b) Sirius<br />
<br />
(c) Depends on value of the respective radii<br />
<br />
(d) The integrated radiance is equal.<br />
<br />
25. Suppose a spaceship is attempting a slingshot maneuver on a gas giant with mass 100 times that of the spaceship. Because the spaceship somewhat entered the planet’s atmosphere, kinetic energy was not conserved—only momentum. What is the ratio of the spaceship’s change in velocity to the planet’s change in velocity, $$\frac{{\Delta}v_{s}}{{\Delta}v_{p}}$$?<br />
<br />
(a) 10<br />
<br />
(b) 100<br />
<br />
(c) -10<br />
<br />
(d) -100<br />
<br />
26. Let’s imagine that our Universe would be filled with basketballs, each having a mass of $$m_{b}$$ = 0.62 kg. What would be the necessary numerical density ($$n_{b}$$) of basketballs in the Universe such that the mass density of the basketballs would equal the current critical density of our Universe?<br />
<br />
(a) 1.5 * 10<sup>-26</sup> balls/$$m_{3}$$<br />
<br />
(b) 1.7 * 10<sup>26</sup> balls/$$m_{3}$$<br />
<br />
(c) 1.5 * 10<sup>-27</sup> balls/$$m_{3}$$<br />
<br />
(d) 1.7 * 10<sup>27</sup> balls/$$m_{3}$$<br />
<br />
27. When binary systems are really close together, they can execute an accretion process, in which one star (called the primary star) ”eats” the mass of the other (called the secondary star), whose mass spirals down into the primary star, creating an accretion disk!<br />
<br />
For an accretion disk with the outer edge 3R from the center of the primary star (radius R and mass M), calculate the energy lost by a test mass (mass m) where it touches the primary star from where it first enters the accretion disk.<br />
<br />
Consider the orbits to be Keplerian.<br />
<br />
(a)$$\frac{GMm}{R}$$<br />
<br />
(b)$$\frac{1}{2}\frac{GMm}{R}$$<br />
<br />
(c)$$\frac{2}{5}\frac{GMm}{R}$$<br />
<br />
(d)$$\frac{2}{3}\frac{GMm}{R}$$<br />
<br />
(e)$$\frac{3}{4}\frac{GMm}{R}$$<br />
<br />
28. An often-repeated fun fact is that humans produce more power per unit volume than stars. If the sun were the same size, but it produced the same amount of power per unit volume as a human, what would its surface temperature be? Assume the “average human” produces 100 watts of power and has a volume of 66400 cubic centimeters.<br />
<br />
(a) 3500 K<br />
<br />
(b) 10000 K<br />
<br />
(c) 25000 K<br />
<br />
(d) 40000 K<br />
<br />
(e) 50000 K<br />
<br />
29. Given that the redshift of cosmic microwave background (CMB) is 1100, what was the temperature of the Universe when photon decoupled from matter and neutral hydrogen started to get formed? The present temperature of the CMB is 2.73 K.<br />
<br />
(a) 10000 K<br />
<br />
(b) 30000 K<br />
<br />
(c) 3000 K<br />
<br />
(d) 1000 K<br />
<br />
(e) 300 K<br />
<br />
30. Where and when should we place a radio telescope such that, when combined with a radio telescope on Earth, the system could ”see” the supermassive black hole in Sculptor’s Galaxy (NGC253)?<br />
<br />
Sculptor’s Galaxy’s supermassive black hole’s mass is estimated to be around 5• 10<sup>6</sup>$$M_{\odot}$$, and its distance is estimated to be around 3.5 Mpc.<br />
<br />
Out of the options below, pick the one closest to the estimate you obtain, rounding up. Consider the energy of a radio wave to be around 10<sup>-5</sup> eV.<br />
<br />
Use the following formula to estimate the angular resolution:$${\theta}=\frac{\lambda}{D}$$<br />
<br />
(a) On the Moon when it is at its apogee.<br />
<br />
(b) On Mars when it is in conjunction.<br />
<br />
(c) On Venus when it is in its greatest elongation.<br />
<br />
(d) On one of Jupiter’s moons when it is in opposition.<br />
<br />
(e) Somewhere in the farthest points of the Oort cloud when Earth is at its perihelion.<br />
<br />
==翻译==<br />
<br />
1.2020年12月21日, 木星在$$(\alpha,\delta)=(20^{h}10^{m},-20°34′)$$。土星在哪个星座?<br />
<br />
(a) 摩羯座<br />
<br />
(b) 宝瓶座<br />
<br />
(c) 双鱼座<br />
<br />
(d) 天鹰座<br />
<br />
2.光度5.86 * 10<sup>26</sup> W,半径8.51 * 10<sup>8</sup>m的恒星光谱型是什么?<br />
<br />
(a) A<br />
<br />
(b) F<br />
<br />
(c) G<br />
<br />
(d) K<br />
<br />
(e) M<br />
<br />
3.系外行星HD209458b质量是0.71倍木星质量,绕HD209458的公转周期是3.53天。HD209458质量是1.15倍太阳质量。假设它的公转轨道是圆轨道且恰好能被我们观测到,HD209458由HD209458b公转产生的径向速度的半振幅是多少?<br />
<br />
(a) 69.6m/s<br />
<br />
(b) 85.9m/s<br />
<br />
(c) 94.2m/s<br />
<br />
(d) 120.8m/s<br />
<br />
4.黑体的光子数密度和温度的关系:$$n_{d} = a(\frac{k_{B}T}{\hbar_{c}})^{n}$$,其中$$k_{B}$$是玻尔兹曼常数,$$\hbar$$是约化普朗克常数,$$c$$是光速,$$T$$是黑体的温度。$$a$$是一个无量纲的常数。$$n$$的值是多少?<br />
<br />
(a) 1<br />
<br />
(b) 2<br />
<br />
(c) 3<br />
<br />
(d) 4<br />
<br />
5.HD209458b的半径是木星的1.35倍,HD209458的半径是太阳的1.20倍,HD209458b的掩食深度是多少?<br />
<br />
(a) 0.013%<br />
<br />
(b) 0.13%<br />
<br />
(c) 1.3%<br />
<br />
(d) 13%<br />
<br />
6.关于大爆炸理论,以下哪项是正确的?<br />
<br />
(a)在大爆炸理论下,我们的宇宙不可能是平坦的或接近平坦的,这与观测结果相符。<br />
<br />
(b)在大爆炸理论下,复合前宇宙微波背景辐射达到热平衡是不可能的,尽管我们今天观测已经达到热平衡。<br />
<br />
(c)大爆炸理论预言有大量磁单极粒子,但我们还没有观测到它。<br />
<br />
(d)以上都对<br />
<br />
7.彗星C/2020 F3(NEOWISE)于2020年6月3日到达近日点。NEOWISE的周期是4400年,轨道偏心率是0.99921。它的近日距是多少?<br />
<br />
(a) 0.0123AU<br />
<br />
(b) 0.212AU<br />
<br />
(c) 2.69AU<br />
<br />
(d) 26.8AU<br />
<br />
8.一位天文学家发现了一个星系并决定分析它不同的部分。氢原子的自旋翻转跃迁的频率$$v_{0} = 1420.406MHz$$,在这个星系中被观测到$$v=1422.73MHz$$。<br />
<br />
1. 星族I恒星(1),它们含有(2)金属。<br />
<br />
2. 这个星系正在(3)我们,它的速度是(4)$$km*s^{-1}$$。<br />
<br />
(a) (1)年轻;(2)很少;(3)远离;(4)245<br />
<br />
(b) (1)年老;(2)很多;(3)靠近;(4)490<br />
<br />
(c) (1)年老;(2)很少;(3)远离;(4)490<br />
<br />
(d) (1)年轻;(2)很多;(3)靠近;(4)490<br />
<br />
(e) (1)您请;(2)很多;(3)靠近;(4)245<br />
<br />
9. 一个稳定的疏散星国有大约$$N = 1000$$个太阳这样的恒星,它的视直径$$\theta = 30’$$,距离$$d$$=500pc。假设这个星国可以近似成一个分布均匀的球,估计这个星团中恒星的平均速度。密度均匀的球的半径$$r$$与引力势能存在以下关系:<br />
<br />
$$U_{sphere} = -\frac{3}{5}\frac{GM^{2}_{sphere}}{r}$$<br />
<br />
(a) 507 m/s<br />
<br />
(b) 643 m/s<br />
<br />
(c) 894 m/s<br />
<br />
(d) 1021 m/s<br />
<br />
(e) 771 m/s<br />
<br />
10. 如果地球的轨道倾角变为0度,太阳的日行迹会发生什么?<br />
<br />
(a) 日行迹会呈现为一个关于两个轴的完美对称图形且仍然是“8”的形状。<br />
<br />
(b) 日行迹会变成一个点<br />
<br />
(c) 日行迹会变成一个圆<br />
<br />
(d) 日行迹会变成一个球面三角形<br />
<br />
11. 用$$T_{{\odot},C}$$和$$T_{{\odot},S}表示太阳的核心温度和表面温度。用$$T_{A,C}$$和$$T_{A,S}$表示大角星(Arcturus)的核心温度和表面温度,用$$T_{S,C}$$和$$T_{S,S}$$表示白矮星天狼星B(Sirius B)的核心温度和表面温度。以下哪个选项是正确的?<br />
<br />
(a) $$\frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{A,C}}{T_{A,S}} < \frac{T_{S,C}}{T_{S,S}}$$<br />
<br />
(b) $$\frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{S,C}}{T_{S,S}} < \frac{T_{A,C}}{T_{A,S}}$$<br />
<br />
(c) $$\frac{T_{A,C}}{T_{A,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{S,C}}{T_{S,S}}$$<br />
<br />
(d) $$\frac{T_{S,C}}{T_{S,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{A,C}}{T_{A,S}}$$<br />
<br />
(e) $$\frac{T_{S,C}}{T_{S,S}} < \frac{T_{A,C}}{T_{A,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}}$$<br />
<br />
12. 某颗恒星的$$H_{\alpha}$$谱线波长和有$${\Delta}{\lambda} = 0.043 {\times} 10^{-10}$$m的位移。静止状态下这条谱线的波长是$${\lambda}_{0} = 6.536 {\times} 10^{-7}$$m。如果这是在赤道上观测到的,请计算它的自转周期。已知这颗恒星的半径$$R_{star} = 8 {\times} 10^{5}$$km。<br />
<br />
(a) 29.59天<br />
<br />
(b) 14.63天<br />
<br />
(c) 21.15天<br />
<br />
(d) 34.39天<br />
<br />
13. 艾萨克牛顿制造的反射式望远镜是一台焦比f/5的望远镜,它有一个口径30mm的副镜。牛顿使用的目镜焦距是5mm。这台望远镜的焦距和放大倍数是多少?<br />
<br />
(a) 150mm, 30×<br />
<br />
(b) 300mm, 15×<br />
<br />
(c) 300mm, 30×<br />
<br />
(d) 150mm, 15×<br />
<br />
14. 请看下面这张图片:<br />
<br />
[[文件:Usaaao2021 exam1-14.jpg|800px]]<br />
<br />
这张图片中有三个被标记的梅西耶天体。选择出和标记相对应的类型。<br />
<br />
(a) 1 - 疏散星团;2 - 疏散星团;3 - 星云。<br />
<br />
(b) 1 - 疏散星团;2 - 星云;3 - 星系。<br />
<br />
(c) 1 - 星系;2 - 星云;3 - 球状星团。<br />
<br />
(d) 1 - 疏散星团;2 - 星系;3 - 球状星团。<br />
<br />
(e) 1 - 疏散星团;2 - 星云;3 - 疏散星团。<br />
<br />
15. 太阳系中的一个有趣现象是在星际物质中捕获彗星。假设一颗质量7.15 * 10<sup>16</sup>kg的彗星被太阳系捕获。它被捕获后的近日点是4.64AU,它在被捕获前相对于太阳的运动速度非常小。请计算它在近日点的速度。<br />
<br />
(a) 87.1 km/s<br />
<br />
(b) 45.9 km/s<br />
<br />
(c) 5.67 km/s<br />
<br />
(d) 105.4 km/s<br />
<br />
(e) 19.6 km/s<br />
<br />
16. 某一天,世界时(UT)是0h时,本初子午线上的恒星时是5h 56min 9.4s。请计算这一天芝加哥恒星时为20h时的以世界时(UT)为标准的地方时间,芝加哥的地理纬度是87.65004722° W,时区是UT-6。你应当考虑太阳时和恒星时的差异。<br />
<br />
(a) 14h 1min 32s<br />
<br />
(b) 13h 26min 17s<br />
<br />
(c) 14h 36min 47s<br />
<br />
(d) 14h 0min 43s<br />
<br />
(e) 13h 51min 11s<br />
<br />
17. 想象一个可怕的场景:太阳已经变成一颗红巨星,其半径每100年就会增加一倍。请把一下要考虑的问题按照对人类的重要性排序。<br />
<br />
I:地球和太阳接触造成的轨道衰减。<br />
<br />
II:随着地球和太阳的距离越来越小,地球将会落入太阳的洛希极限并开始被太阳撕裂。<br />
<br />
III:地球对太阳外层大气的潮汐影响引起地球的轨道衰减,就像月球形成地球的潮汐时会失去能量。<br />
<br />
IV:极度高温引发失控的温室效应使地球变成像金星一样不适宜生存。<br />
<br />
(a) III, IV, II, I<br />
<br />
(b) IV, III, II, I<br />
<br />
(c) IV, II, III, I<br />
<br />
(d) IV, III, I, II</div>Dg1200https://www.astro-init.top/index.php?title=2021USAAAO%E9%A2%84%E8%B5%9B%E9%80%89%E6%8B%A9%E9%A2%98&diff=24782021USAAAO预赛选择题2023-05-24T14:59:38Z<p>Dg1200:</p>
<hr />
<div>==题目==<br />
<br />
1. On December 21, 2020, Jupiter was at $$(\alpha,\delta)=(20^{h}10^{m},-20°34′)$$. Which constellation was Saturn in?<br />
<br />
(a) Capricornus<br />
<br />
(b) Aquarius<br />
<br />
(c) Pisces<br />
<br />
(d) Aquila<br />
<br />
2. What is the spectral type of a star with a luminosity of 5.86 * 10<sup>26</sup> W and radius of 8.51 * 10<sup>8</sup> m?<br />
<br />
(a) A<br />
<br />
(b) F<br />
<br />
(c) G<br />
<br />
(d) K<br />
<br />
(e) M<br />
<br />
3. The exoplanet HD 209458b has a mass of 0.71 Jupiter masses and orbits HD 209458 with an orbital period of 3.53 days. HD 209458 has a mass of 1.15 Solar masses. Assuming that the orbit of HD 209458b is circular (which is a good approximation here) and that its orbit lies perfectly in our line of sight, what is the radial velocity semi-amplitude of HD 209458 due to the orbital motion of HD 209458b, in m/s?<br />
<br />
(a) 69.6 m/s<br />
<br />
(b) 85.9 m/s<br />
<br />
(c) 94.2 m/s<br />
<br />
(d) 120.8 m/s<br />
<br />
4. The photon number density of a blackbody depends on temperature as $$n_{d} = a(\frac{k_{B}T}{\hbar_{c}})^{n}$$ where $$k_{B}$$ is the Boltzman constant, $$\hbar$$ is the reduced Planck’s constant, $$c$$ is the speed of light and $$T$$ is the blackbody temperature. Here, $$a$$ is a dimensionless numerical constant. What is the value of $$n$$?<br />
<br />
(a) 1<br />
<br />
(b) 2<br />
<br />
(c) 3<br />
<br />
(d) 4<br />
<br />
5. HD 209458b has a radius of 1.35 Jupiter radii, while the radius of HD 209458 is 1.20 Solar radii. What is the transit depth of HD 209458b, in percent?<br />
<br />
(a) 0.013%<br />
<br />
(b) 0.13%<br />
<br />
(c) 1.3%<br />
<br />
(d) 13%<br />
<br />
6. Which of the following is a problem of the conventional Big Bang theory that is resolved by the theory of inflation?<br />
<br />
(a) Under the conventional Big Bang theory, it is extremely unlikely for our universe to be flat or nearly flat today, contrary to observation.<br />
<br />
(b) Under the conventional Big Bang theory, it is impossible for the Cosmic Microwave Background to have come into thermal equilibrium by the time of recombination, despite its observed uniform temperature.<br />
<br />
(c) The conventional Big Bang theory predicts a huge abundance of magnetic monopoles, while no magnetic monopoles have ever been discovered.<br />
<br />
(d) All of the above<br />
<br />
7. Comet C/2020 F3 (NEOWISE) last reached perihelion on July 3, 2020. Comet NEOWISE has an orbital period of ≈ 4400 years and its eccentricity is 0.99921. What is the perihelion distance of Comet NEOWISE, in AU?<br />
<br />
(a) 0.0123 AU<br />
<br />
(b) 0.212 AU<br />
<br />
(c) 2.69 AU<br />
<br />
(d) 26.8 AU<br />
<br />
8. An astronomer detected a galaxy and decided to analyze its different parts and physical aspects. The frequency generated by a “spin-flip” transition of atomic hydrogen is $$v_{0} = 1420.406MHz$$, however it was detected on the galaxy as $$v = 1422.73$$. He finds that:<br />
<br />
1. Population I stars are (1) and are metal-(2).<br />
<br />
2. The galaxy is (3) from us with a speed of (4) $$km * s^{-1}$$.<br />
<br />
Choose the alternative that correctly completes sentences above.<br />
<br />
(a) (1) young; (2) poor; (3) distancing; (4) 245<br />
<br />
(b) (1) old; (2) rich; (3) approaching; (4) 490<br />
<br />
(c) (1)old; (2) poor; (3) distancing; (4) 490<br />
<br />
(d) (1) young; (2) rich; (3) approaching; (4) 490<br />
<br />
(e) (1) young; (2) rich; (3) approaching; (4) 245<br />
<br />
9. A stable open cluster of about $$N = 1000$$ sun-like stars has an angulardiameter of $$\theta$$ = 30 arc minutes and distance of $$d$$ = 500 pc. Assuming the cluster can be approximated by a sphere of uniform density, estimate the average velocities of stars in the cluster. The gravitational potential energy of a sphere of uniform density and radius $$r$$ is<br />
<br />
$$U_{sphere} = -\frac{3}{5}\frac{GM^{2}_{sphere}}{r}$$<br />
<br />
(a) 507 m/s<br />
<br />
(b) 643 m/s<br />
<br />
(c) 894 m/s<br />
<br />
(d) 1021 m/s<br />
<br />
(e) 771 m/s<br />
<br />
10. What would happen to the analemma of the Sun if the obliquity of the Earth’s orbit suddenly went to zero degrees and its eccentricity remained unchanged?<br />
<br />
(a) The anallema would be perfectly symmetric in both axes and would have the shape of an“8”.<br />
<br />
(b) The analemma would look like a dot.<br />
<br />
(c) The analemma would be the arc of a great circle.<br />
<br />
(d) The analemma would look like a circle.<br />
<br />
(e) The analemma would be a spherical triangle.<br />
<br />
11. Let $$T_{{\odot},C}$$ and $$T_{{\odot},S}$$ be the temperatures at the core and the surface of the sun, respectively. Similarly, let $$T_{A,C}$$ and $$T_{A,S}$$ be the temperatures at the core and surface of the red giant Arcturus, and let $$T_{S,C}$$ and $$T_{S,S}$$ be the temperatures at the core and surface of the white dwarf Sirius B. Which of the following inequalities is true?<br />
<br />
(a) $$\frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{A,C}}{T_{A,S}} < \frac{T_{S,C}}{T_{S,S}}$$<br />
<br />
(b) $$\frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{S,C}}{T_{S,S}} < \frac{T_{A,C}}{T_{A,S}}$$<br />
<br />
(c) $$\frac{T_{A,C}}{T_{A,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{S,C}}{T_{S,S}}$$<br />
<br />
(d) $$\frac{T_{S,C}}{T_{S,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{A,C}}{T_{A,S}}$$<br />
<br />
(e) $$\frac{T_{S,C}}{T_{S,S}} < \frac{T_{A,C}}{T_{A,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}}$$<br />
<br />
12. The spectral line $$H_{\alpha}$$ in the spectrum of a star is recorded as having displacement of $${\Delta}{\lambda} = 0.043 {\times} 10^{-10}$$ m. At rest, the spectral line has a wavelength of $${\lambda}_{0} = 6.536 {\times} 10^{-7}$$ m. Calculate the period of rotation for this star, if it is observed from its equatorial plane. We also know: $$R_{star} = 8 {\times} 10^{5}$$ km.<br />
<br />
(a) 29.59 days<br />
<br />
(b) 14.63 days<br />
<br />
(c) 21.15 days<br />
<br />
(d) 34.39 days<br />
<br />
13. The reflector telescope built by Sir Issac Newton was a f{5 telescope and had a primary mirror of diameter 30mm. He used an eyepiece with a focal length of 5mm. What is the focal length and magnification obtained by this telescope?<br />
<br />
(a) 150mm, 30ˆ<br />
<br />
(b) 300mm, 15ˆ<br />
<br />
(c) 300mm, 30ˆ<br />
<br />
(d) 150mm, 15ˆ<br />
<br />
14.Take a look at the following image:<br />
<br />
[[文件:Usaaao2021 exam1-14.jpg|800px]]<br />
<br />
Three Messier objects are circled in the image. Select the alternative that correctly matches each object with its type.<br />
<br />
(a) 1 - Open cluster; 2 - Open cluster; 3 - Nebula.<br />
<br />
(b) 1 - Open Cluster; 2 - Nebula; 3 - Galaxy.<br />
<br />
(c) 1 - Galaxy; 2 - Nebula; 3 - Globular cluster.<br />
<br />
(d) 1 - Open cluster; 2 - Galaxy; 3 - Globular cluster.<br />
<br />
(e) 1 - Open cluster; 2 - Nebula; 3 - Open cluster.<br />
<br />
15. An interesting phenomena that happens in the Solar System is the capture of comets in the interstellar medium. Assume that a comet with a mass of 7.15 * 10<sup>16</sup> kg is captured by the solar system. The perihelion of this comet’s orbit after it is captured is equal to 4.64 AU, and its velocity with respect to the Sun before being captured by the Solar System was very small. Calculate the velocity of the comet at the perihelion.<br />
<br />
(a) 87.1 km/s<br />
<br />
(b) 45.9 km/s<br />
<br />
(c) 5.67 km/s<br />
<br />
(d) 105.4 km/s<br />
<br />
(e) 19.6 km/s<br />
<br />
16. In a certain day, when it is 0h UT, the sidereal time of Prime Meridian is 5h 56min 9.4s. For this day, with start and end based on UT, find the civil time of Chicago, whose longitude and time zone are respectively, 87.65004722° W and UT-6, when the sidereal time there is 20h. The difference between solar time and sidereal time '''SHOULD''' be accounted for.<br />
<br />
(a) 14h 1min 32s<br />
<br />
(b) 13h 26min 17s<br />
<br />
(c) 14h 36min 47s<br />
<br />
(d) 14h 0min 43s<br />
<br />
(e) 13h 51min 11s<br />
<br />
17. Consider the following horrifying scenario. The Sun has become a Red Giant, and its radius is doubling every 100 years. Rank the following of humanity’s concerns in order of immediate importance.<br />
<br />
I: Orbital decay due to direct contact between the Earth and Sun<br />
<br />
II: As the distance between the Earth and Sun shrinks, the Earth will enter the Sun’s Roche limit and start to be ripped apart<br />
<br />
III: Orbital decay due to tidal effects on the Sun’s outer atmosphere, the same way the Moon loses energy when forming the Earth’s tides<br />
<br />
IV: Runaway greenhouse effect due to extreme temperatures, leading to the Earth becoming a hot, Venus-like planet with no habitability<br />
<br />
(a) III, IV, II, I<br />
<br />
(b) IV, III, II, I<br />
<br />
(c) IV, II, III, I<br />
<br />
(d) IV, III, I, II<br />
<br />
18. TESS Object of Interest (TOI) 402.01 has an orbital period of 4.756 ± 0.000023 (days) and was last observed to transit on 2139.1 ± 0.0027008 (in TESS Julian days, i.e. BJD - 2457000). For follow-up observation, we would like to predict the next transit – this would be the 23rd transit since the last observation. In TESS Julian days, when will the next transit occur?<br />
<br />
(a) 2243.732 ± 0.0027238 TESS JD<br />
<br />
(b) 2248.488 ± 0.000529 TESS JD<br />
<br />
(c) 2248.488 ± 0.0027238 TESS JD<br />
<br />
(d) 2248.488 ± 0.0032298 TESS JD<br />
<br />
19. Jupiter has a mass of 1.90 * 10<sup>27</sup> kg and a radius of 7.15 * 10<sup>7</sup> m. To the closest order of magnitude, estimate the pressure at the center of Jupiter, in Megabars.<br />
<br />
(a) 0.1<br />
<br />
(b) 1<br />
<br />
(c) 10<br />
<br />
(d) 100<br />
<br />
20. Which of the following statements is wrong?<br />
<br />
(a) It is believed that elements with atomic number greater than that of iron are formed mostly by the explosion of supernovas.<br />
<br />
(b) What holds a star together is the hydrostatic equilibrium between pressure and gravity.<br />
<br />
(c) The granulations of the Sun happen on its corona.<br />
<br />
(d) Protostars are actually not stars because their main source of heat is not fusion.<br />
<br />
(e) The earlier type the main-sequence star, the more massive it is.<br />
<br />
21. Consider a horizontal sundial where the triangular gnomon rises at an angle equal to the sundial site's latitude, $${\phi}$$ = 38°. If the area of the triangular gnomon is 2 m<sup>2</sup>, what would be the area of the shadow in $$m^{2}$$ three hours after the noon in the first day of spring (vernal equinox)?<br />
<br />
(a) 3.0<br />
<br />
(b) 3.5<br />
<br />
(c) 2.5<br />
<br />
(d) 1.5<br />
<br />
(e) 4.0<br />
<br />
[[文件:Usaaao2021 exam1-21.jpg|800px]]<br />
<br />
22. Consider an eclipsing binary star system observed (in some fixed band) to have a '''combined''' apparent magnitude of 5.67. During the secondary transit, the second star is totally eclipsed by the first star, and the apparent magnitude dims to 6.28. What percent of the combined flux is produced by the '''second''' star?<br />
<br />
(a) 10.8%<br />
<br />
(b) 43.0%<br />
<br />
(c) 57.0%<br />
<br />
(d) 89.2%<br />
<br />
23. An astronomer observes that a Solar type star has an apparent V magnitude of 6.73 when seen from the Earth. Assuming that the average interstellar extinction in V is 1.00 mag/kpc, determine the distance between this star and the Solar system.<br />
<br />
(a) 11.5 pc<br />
<br />
(b) 49.5 pc<br />
<br />
(c) 34.2 pc<br />
<br />
(d) 23.7 pc<br />
<br />
(e) 18.9 pc<br />
<br />
24. 1. The temperature of the Sun is 5000K while that of Sirius is 10000K. Which star has a higher integrated radiance i.e. net energy emitted per unit time per unit area?<br />
<br />
(a) Sun<br />
<br />
(b) Sirius<br />
<br />
(c) Depends on value of the respective radii<br />
<br />
(d) The integrated radiance is equal.<br />
<br />
25. Suppose a spaceship is attempting a slingshot maneuver on a gas giant with mass 100 times that of the spaceship. Because the spaceship somewhat entered the planet’s atmosphere, kinetic energy was not conserved—only momentum. What is the ratio of the spaceship’s change in velocity to the planet’s change in velocity, $$\frac{{\Delta}v_{s}}{{\Delta}v_{p}}$$?<br />
<br />
(a) 10<br />
<br />
(b) 100<br />
<br />
(c) -10<br />
<br />
(d) -100<br />
<br />
26. Let’s imagine that our Universe would be filled with basketballs, each having a mass of $$m_{b}$$ = 0.62 kg. What would be the necessary numerical density ($$n_{b}$$) of basketballs in the Universe such that the mass density of the basketballs would equal the current critical density of our Universe?<br />
<br />
(a) 1.5 * 10<sup>-26</sup> balls/$$m_{3}$$<br />
<br />
(b) 1.7 * 10<sup>26</sup> balls/$$m_{3}$$<br />
<br />
(c) 1.5 * 10<sup>-27</sup> balls/$$m_{3}$$<br />
<br />
(d) 1.7 * 10<sup>27</sup> balls/$$m_{3}$$<br />
<br />
27. When binary systems are really close together, they can execute an accretion process, in which one star (called the primary star) ”eats” the mass of the other (called the secondary star), whose mass spirals down into the primary star, creating an accretion disk!<br />
<br />
For an accretion disk with the outer edge 3R from the center of the primary star (radius R and mass M), calculate the energy lost by a test mass (mass m) where it touches the primary star from where it first enters the accretion disk.<br />
<br />
Consider the orbits to be Keplerian.<br />
<br />
(a)$$\frac{GMm}{R}$$<br />
<br />
(b)$$\frac{1}{2}\frac{GMm}{R}$$<br />
<br />
(c)$$\frac{2}{5}\frac{GMm}{R}$$<br />
<br />
(d)$$\frac{2}{3}\frac{GMm}{R}$$<br />
<br />
(e)$$\frac{3}{4}\frac{GMm}{R}$$<br />
<br />
28. An often-repeated fun fact is that humans produce more power per unit volume than stars. If the sun were the same size, but it produced the same amount of power per unit volume as a human, what would its surface temperature be? Assume the “average human” produces 100 watts of power and has a volume of 66400 cubic centimeters.<br />
<br />
(a) 3500 K<br />
<br />
(b) 10000 K<br />
<br />
(c) 25000 K<br />
<br />
(d) 40000 K<br />
<br />
(e) 50000 K<br />
<br />
29. Given that the redshift of cosmic microwave background (CMB) is 1100, what was the temperature of the Universe when photon decoupled from matter and neutral hydrogen started to get formed? The present temperature of the CMB is 2.73 K.<br />
<br />
(a) 10000 K<br />
<br />
(b) 30000 K<br />
<br />
(c) 3000 K<br />
<br />
(d) 1000 K<br />
<br />
(e) 300 K<br />
<br />
30. Where and when should we place a radio telescope such that, when combined with a radio telescope on Earth, the system could ”see” the supermassive black hole in Sculptor’s Galaxy (NGC253)?<br />
<br />
Sculptor’s Galaxy’s supermassive black hole’s mass is estimated to be around 5• 10<sup>6</sup>$$M_{\odot}$$, and its distance is estimated to be around 3.5 Mpc.<br />
<br />
Out of the options below, pick the one closest to the estimate you obtain, rounding up. Consider the energy of a radio wave to be around 10<sup>-5</sup> eV.<br />
<br />
Use the following formula to estimate the angular resolution:$${\theta}=\frac{\lambda}{D}$$<br />
<br />
(a) On the Moon when it is at its apogee.<br />
<br />
(b) On Mars when it is in conjunction.<br />
<br />
(c) On Venus when it is in its greatest elongation.<br />
<br />
(d) On one of Jupiter’s moons when it is in opposition.<br />
<br />
(e) Somewhere in the farthest points of the Oort cloud when Earth is at its perihelion.<br />
<br />
==翻译==<br />
<br />
1.2020年12月21日, 木星在$$(\alpha,\delta)=(20^{h}10^{m},-20°34′)$$。土星在哪个星座?<br />
<br />
(a) 摩羯座<br />
<br />
(b) 宝瓶座<br />
<br />
(c) 双鱼座<br />
<br />
(d) 天鹰座<br />
<br />
2.光度5.86 * 10<sup>26</sup> W,半径8.51 * 10<sup>8</sup>m的恒星光谱型是什么?<br />
<br />
(a) A<br />
<br />
(b) F<br />
<br />
(c) G<br />
<br />
(d) K<br />
<br />
(e) M<br />
<br />
3.系外行星HD209458b质量是0.71倍木星质量,绕HD209458的公转周期是3.53天。HD209458质量是1.15倍太阳质量。假设它的公转轨道是圆轨道且恰好能被我们观测到,HD209458由HD209458b公转产生的径向速度的半振幅是多少?<br />
<br />
(a) 69.6m/s<br />
<br />
(b) 85.9m/s<br />
<br />
(c) 94.2m/s<br />
<br />
(d) 120.8m/s<br />
<br />
4.黑体的光子数密度和温度的关系:$$n_{d} = a(\frac{k_{B}T}{\hbar_{c}})^{n}$$,其中$$k_{B}$$是玻尔兹曼常数,$$\hbar$$是约化普朗克常数,$$c$$是光速,$$T$$是黑体的温度。$$a$$是一个无量纲的常数。$$n$$的值是多少?<br />
<br />
(a) 1<br />
<br />
(b) 2<br />
<br />
(c) 3<br />
<br />
(d) 4<br />
<br />
5.HD209458b的半径是木星的1.35倍,HD209458的半径是太阳的1.20倍,HD209458b的掩食深度是多少?<br />
<br />
(a) 0.013%<br />
<br />
(b) 0.13%<br />
<br />
(c) 1.3%<br />
<br />
(d) 13%<br />
<br />
6.关于大爆炸理论,以下哪项是正确的?<br />
<br />
(a)在大爆炸理论下,我们的宇宙不可能是平坦的或接近平坦的,这与观测结果相符。<br />
<br />
(b)在大爆炸理论下,复合前宇宙微波背景辐射达到热平衡是不可能的,尽管我们今天观测已经达到热平衡。<br />
<br />
(c)大爆炸理论预言有大量磁单极粒子,但我们还没有观测到它。<br />
<br />
(d)以上都对<br />
<br />
7.彗星C/2020 F3(NEOWISE)于2020年6月3日到达近日点。NEOWISE的周期是4400年,轨道偏心率是0.99921。它的近日距是多少?<br />
<br />
(a) 0.0123AU<br />
<br />
(b) 0.212AU<br />
<br />
(c) 2.69AU<br />
<br />
(d) 26.8AU<br />
<br />
8.一位天文学家发现了一个星系并决定分析它不同的部分。氢原子的自旋翻转跃迁的频率$$v_{0} = 1420.406MHz$$,在这个星系中被观测到$$v=1422.73MHz$$。<br />
<br />
1. 星族I恒星(1),它们含有(2)金属。<br />
<br />
2. 这个星系正在(3)我们,它的速度是(4)$$km*s^{-1}$$。<br />
<br />
(a) (1)年轻;(2)很少;(3)远离;(4)245<br />
<br />
(b) (1)年老;(2)很多;(3)靠近;(4)490<br />
<br />
(c) (1)年老;(2)很少;(3)远离;(4)490<br />
<br />
(d) (1)年轻;(2)很多;(3)靠近;(4)490<br />
<br />
(e) (1)您请;(2)很多;(3)靠近;(4)245<br />
<br />
9. 一个稳定的疏散星国有大约$$N = 1000$$个太阳这样的恒星,它的视直径$$\theta = 30’$$,距离$$d$$=500pc。假设这个星国可以近似成一个分布均匀的球,估计这个星团中恒星的平均速度。密度均匀的球的半径$$r$$与引力势能存在以下关系:<br />
<br />
$$U_{sphere} = -\frac{3}{5}\frac{GM^{2}_{sphere}}{r}$$<br />
<br />
(a) 507 m/s<br />
<br />
(b) 643 m/s<br />
<br />
(c) 894 m/s<br />
<br />
(d) 1021 m/s<br />
<br />
(e) 771 m/s<br />
<br />
10. 如果地球的轨道倾角变为0度,太阳的日行迹会发生什么?<br />
<br />
(a) 日行迹会呈现为一个关于两个轴的完美对称图形且仍然是“8”的形状。<br />
<br />
(b) 日行迹会变成一个点<br />
<br />
(c) 日行迹会变成一个圆<br />
<br />
(d) 日行迹会变成一个球面三角形<br />
<br />
11. 用$$T_{{\odot},C}$$和$$T_{{\odot},S}表示太阳的核心温度和表面温度。用$$T_{A,C}$$和$$T_{A,S}$表示大角星(Arcturus)的核心温度和表面温度,用$$T_{S,C}$$和$$T_{S,S}$$表示白矮星天狼星B(Sirius B)的核心温度和表面温度。以下哪个选项是正确的?<br />
<br />
(a) $$\frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{A,C}}{T_{A,S}} < \frac{T_{S,C}}{T_{S,S}}$$<br />
<br />
(b) $$\frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{S,C}}{T_{S,S}} < \frac{T_{A,C}}{T_{A,S}}$$<br />
<br />
(c) $$\frac{T_{A,C}}{T_{A,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{S,C}}{T_{S,S}}$$<br />
<br />
(d) $$\frac{T_{S,C}}{T_{S,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{A,C}}{T_{A,S}}$$<br />
<br />
(e) $$\frac{T_{S,C}}{T_{S,S}} < \frac{T_{A,C}}{T_{A,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}}$$<br />
<br />
12. 某颗恒星的$$H_{\alpha}$$谱线波长和有$${\Delta}{\lambda} = 0.043 {\times} 10^{-10}$$m的位移。静止状态下这条谱线的波长是$${\lambda}_{0} = 6.536 {\times} 10^{-7}$$m。如果这是在赤道上观测到的,请计算它的自转周期。已知这颗恒星的半径$$R_{star} = 8 {\times} 10^{5}$$km。<br />
<br />
(a) 29.59天<br />
<br />
(b) 14.63天<br />
<br />
(c) 21.15天<br />
<br />
(d) 34.39天</div>Dg1200https://www.astro-init.top/index.php?title=2021USAAAO%E9%A2%84%E8%B5%9B%E9%80%89%E6%8B%A9%E9%A2%98&diff=24772021USAAAO预赛选择题2023-05-24T14:57:26Z<p>Dg1200:</p>
<hr />
<div>==题目==<br />
<br />
1. On December 21, 2020, Jupiter was at $$(\alpha,\delta)=(20^{h}10^{m},-20°34′)$$. Which constellation was Saturn in?<br />
<br />
(a) Capricornus<br />
<br />
(b) Aquarius<br />
<br />
(c) Pisces<br />
<br />
(d) Aquila<br />
<br />
2. What is the spectral type of a star with a luminosity of 5.86 * 10<sup>26</sup> W and radius of 8.51 * 10<sup>8</sup> m?<br />
<br />
(a) A<br />
<br />
(b) F<br />
<br />
(c) G<br />
<br />
(d) K<br />
<br />
(e) M<br />
<br />
3. The exoplanet HD 209458b has a mass of 0.71 Jupiter masses and orbits HD 209458 with an orbital period of 3.53 days. HD 209458 has a mass of 1.15 Solar masses. Assuming that the orbit of HD 209458b is circular (which is a good approximation here) and that its orbit lies perfectly in our line of sight, what is the radial velocity semi-amplitude of HD 209458 due to the orbital motion of HD 209458b, in m/s?<br />
<br />
(a) 69.6 m/s<br />
<br />
(b) 85.9 m/s<br />
<br />
(c) 94.2 m/s<br />
<br />
(d) 120.8 m/s<br />
<br />
4. The photon number density of a blackbody depends on temperature as $$n_{d} = a(\frac{k_{B}T}{\hbar_{c}})^{n}$$ where $$k_{B}$$ is the Boltzman constant, $$\hbar$$ is the reduced Planck’s constant, $$c$$ is the speed of light and $$T$$ is the blackbody temperature. Here, $$a$$ is a dimensionless numerical constant. What is the value of $$n$$?<br />
<br />
(a) 1<br />
<br />
(b) 2<br />
<br />
(c) 3<br />
<br />
(d) 4<br />
<br />
5. HD 209458b has a radius of 1.35 Jupiter radii, while the radius of HD 209458 is 1.20 Solar radii. What is the transit depth of HD 209458b, in percent?<br />
<br />
(a) 0.013%<br />
<br />
(b) 0.13%<br />
<br />
(c) 1.3%<br />
<br />
(d) 13%<br />
<br />
6. Which of the following is a problem of the conventional Big Bang theory that is resolved by the theory of inflation?<br />
<br />
(a) Under the conventional Big Bang theory, it is extremely unlikely for our universe to be flat or nearly flat today, contrary to observation.<br />
<br />
(b) Under the conventional Big Bang theory, it is impossible for the Cosmic Microwave Background to have come into thermal equilibrium by the time of recombination, despite its observed uniform temperature.<br />
<br />
(c) The conventional Big Bang theory predicts a huge abundance of magnetic monopoles, while no magnetic monopoles have ever been discovered.<br />
<br />
(d) All of the above<br />
<br />
7. Comet C/2020 F3 (NEOWISE) last reached perihelion on July 3, 2020. Comet NEOWISE has an orbital period of ≈ 4400 years and its eccentricity is 0.99921. What is the perihelion distance of Comet NEOWISE, in AU?<br />
<br />
(a) 0.0123 AU<br />
<br />
(b) 0.212 AU<br />
<br />
(c) 2.69 AU<br />
<br />
(d) 26.8 AU<br />
<br />
8. An astronomer detected a galaxy and decided to analyze its different parts and physical aspects. The frequency generated by a “spin-flip” transition of atomic hydrogen is $$v_{0} = 1420.406MHz$$, however it was detected on the galaxy as $$v = 1422.73$$. He finds that:<br />
<br />
1. Population I stars are (1) and are metal-(2).<br />
<br />
2. The galaxy is (3) from us with a speed of (4) $$km * s^{-1}$$.<br />
<br />
Choose the alternative that correctly completes sentences above.<br />
<br />
(a) (1) young; (2) poor; (3) distancing; (4) 245<br />
<br />
(b) (1) old; (2) rich; (3) approaching; (4) 490<br />
<br />
(c) (1)old; (2) poor; (3) distancing; (4) 490<br />
<br />
(d) (1) young; (2) rich; (3) approaching; (4) 490<br />
<br />
(e) (1) young; (2) rich; (3) approaching; (4) 245<br />
<br />
9. A stable open cluster of about $$N = 1000$$ sun-like stars has an angulardiameter of $$\theta$$ = 30 arc minutes and distance of $$d$$ = 500 pc. Assuming the cluster can be approximated by a sphere of uniform density, estimate the average velocities of stars in the cluster. The gravitational potential energy of a sphere of uniform density and radius $$r$$ is<br />
<br />
$$U_{sphere} = -\frac{3}{5}\frac{GM^{2}_{sphere}}{r}$$<br />
<br />
(a) 507 m/s<br />
<br />
(b) 643 m/s<br />
<br />
(c) 894 m/s<br />
<br />
(d) 1021 m/s<br />
<br />
(e) 771 m/s<br />
<br />
10. What would happen to the analemma of the Sun if the obliquity of the Earth’s orbit suddenly went to zero degrees and its eccentricity remained unchanged?<br />
<br />
(a) The anallema would be perfectly symmetric in both axes and would have the shape of an“8”.<br />
<br />
(b) The analemma would look like a dot.<br />
<br />
(c) The analemma would be the arc of a great circle.<br />
<br />
(d) The analemma would look like a circle.<br />
<br />
(e) The analemma would be a spherical triangle.<br />
<br />
11. Let $$T_{{\odot},C}$$ and $$T_{{\odot},S}$$ be the temperatures at the core and the surface of the sun, respectively. Similarly, let $$T_{A,C}$$ and $$T_{A,S}$$ be the temperatures at the core and surface of the red giant Arcturus, and let $$T_{S,C}$$ and $$T_{S,S}$$ be the temperatures at the core and surface of the white dwarf Sirius B. Which of the following inequalities is true?<br />
<br />
(a) $$\frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{A,C}}{T_{A,S}} < \frac{T_{S,C}}{T_{S,S}}$$<br />
<br />
(b) $$\frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{S,C}}{T_{S,S}} < \frac{T_{A,C}}{T_{A,S}}$$<br />
<br />
(c) $$\frac{T_{A,C}}{T_{A,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{S,C}}{T_{S,S}}$$<br />
<br />
(d) $$\frac{T_{S,C}}{T_{S,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{A,C}}{T_{A,S}}$$<br />
<br />
(e) $$\frac{T_{S,C}}{T_{S,S}} < \frac{T_{A,C}}{T_{A,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}}$$<br />
<br />
12. The spectral line $$H_{\alpha}$$ in the spectrum of a star is recorded as having displacement of $${\Delta}{\lambda} = 0.043 {\times} 10^{-10}$$ m. At rest, the spectral line has a wavelength of $${\lambda}_{0} = 6.536 {\times} 10^{-7}$$ m. Calculate the period of rotation for this star, if it is observed from its equatorial plane. We also know: $$R_{star} = 8 {\times} 10^{5}$$ km.<br />
<br />
(a) 29.59 days<br />
<br />
(b) 14.63 days<br />
<br />
(c) 21.15 days<br />
<br />
(d) 34.39 days<br />
<br />
13. The reflector telescope built by Sir Issac Newton was a f{5 telescope and had a primary mirror of diameter 30mm. He used an eyepiece with a focal length of 5mm. What is the focal length and magnification obtained by this telescope?<br />
<br />
(a) 150mm, 30ˆ<br />
<br />
(b) 300mm, 15ˆ<br />
<br />
(c) 300mm, 30ˆ<br />
<br />
(d) 150mm, 15ˆ<br />
<br />
14.Take a look at the following image:<br />
<br />
[[文件:Usaaao2021 exam1-14.jpg|800px]]<br />
<br />
Three Messier objects are circled in the image. Select the alternative that correctly matches each object with its type.<br />
<br />
(a) 1 - Open cluster; 2 - Open cluster; 3 - Nebula.<br />
<br />
(b) 1 - Open Cluster; 2 - Nebula; 3 - Galaxy.<br />
<br />
(c) 1 - Galaxy; 2 - Nebula; 3 - Globular cluster.<br />
<br />
(d) 1 - Open cluster; 2 - Galaxy; 3 - Globular cluster.<br />
<br />
(e) 1 - Open cluster; 2 - Nebula; 3 - Open cluster.<br />
<br />
15. An interesting phenomena that happens in the Solar System is the capture of comets in the interstellar medium. Assume that a comet with a mass of 7.15 * 10<sup>16</sup> kg is captured by the solar system. The perihelion of this comet’s orbit after it is captured is equal to 4.64 AU, and its velocity with respect to the Sun before being captured by the Solar System was very small. Calculate the velocity of the comet at the perihelion.<br />
<br />
(a) 87.1 km/s<br />
<br />
(b) 45.9 km/s<br />
<br />
(c) 5.67 km/s<br />
<br />
(d) 105.4 km/s<br />
<br />
(e) 19.6 km/s<br />
<br />
16. In a certain day, when it is 0h UT, the sidereal time of Prime Meridian is 5h 56min 9.4s. For this day, with start and end based on UT, find the civil time of Chicago, whose longitude and time zone are respectively, 87.65004722° W and UT-6, when the sidereal time there is 20h. The difference between solar time and sidereal time '''SHOULD''' be accounted for.<br />
<br />
(a) 14h 1min 32s<br />
<br />
(b) 13h 26min 17s<br />
<br />
(c) 14h 36min 47s<br />
<br />
(d) 14h 0min 43s<br />
<br />
(e) 13h 51min 11s<br />
<br />
17. Consider the following horrifying scenario. The Sun has become a Red Giant, and its radius is doubling every 100 years. Rank the following of humanity’s concerns in order of immediate importance.<br />
<br />
I: Orbital decay due to direct contact between the Earth and Sun<br />
<br />
II: As the distance between the Earth and Sun shrinks, the Earth will enter the Sun’s Roche limit and start to be ripped apart<br />
<br />
III: Orbital decay due to tidal effects on the Sun’s outer atmosphere, the same way the Moon loses energy when forming the Earth’s tides<br />
<br />
IV: Runaway greenhouse effect due to extreme temperatures, leading to the Earth becoming a hot, Venus-like planet with no habitability<br />
<br />
(a) III, IV, II, I<br />
<br />
(b) IV, III, II, I<br />
<br />
(c) IV, II, III, I<br />
<br />
(d) IV, III, I, II<br />
<br />
18. TESS Object of Interest (TOI) 402.01 has an orbital period of 4.756 ± 0.000023 (days) and was last observed to transit on 2139.1 ± 0.0027008 (in TESS Julian days, i.e. BJD - 2457000). For follow-up observation, we would like to predict the next transit – this would be the 23rd transit since the last observation. In TESS Julian days, when will the next transit occur?<br />
<br />
(a) 2243.732 ± 0.0027238 TESS JD<br />
<br />
(b) 2248.488 ± 0.000529 TESS JD<br />
<br />
(c) 2248.488 ± 0.0027238 TESS JD<br />
<br />
(d) 2248.488 ± 0.0032298 TESS JD<br />
<br />
19. Jupiter has a mass of 1.90 * 10<sup>27</sup> kg and a radius of 7.15 * 10<sup>7</sup> m. To the closest order of magnitude, estimate the pressure at the center of Jupiter, in Megabars.<br />
<br />
(a) 0.1<br />
<br />
(b) 1<br />
<br />
(c) 10<br />
<br />
(d) 100<br />
<br />
20. Which of the following statements is wrong?<br />
<br />
(a) It is believed that elements with atomic number greater than that of iron are formed mostly by the explosion of supernovas.<br />
<br />
(b) What holds a star together is the hydrostatic equilibrium between pressure and gravity.<br />
<br />
(c) The granulations of the Sun happen on its corona.<br />
<br />
(d) Protostars are actually not stars because their main source of heat is not fusion.<br />
<br />
(e) The earlier type the main-sequence star, the more massive it is.<br />
<br />
21. Consider a horizontal sundial where the triangular gnomon rises at an angle equal to the sundial site's latitude, $${\phi}$$ = 38°. If the area of the triangular gnomon is 2 m<sup>2</sup>, what would be the area of the shadow in $$m^{2}$$ three hours after the noon in the first day of spring (vernal equinox)?<br />
<br />
(a) 3.0<br />
<br />
(b) 3.5<br />
<br />
(c) 2.5<br />
<br />
(d) 1.5<br />
<br />
(e) 4.0<br />
<br />
[[文件:Usaaao2021 exam1-21.jpg|800px]]<br />
<br />
22. Consider an eclipsing binary star system observed (in some fixed band) to have a '''combined''' apparent magnitude of 5.67. During the secondary transit, the second star is totally eclipsed by the first star, and the apparent magnitude dims to 6.28. What percent of the combined flux is produced by the '''second''' star?<br />
<br />
(a) 10.8%<br />
<br />
(b) 43.0%<br />
<br />
(c) 57.0%<br />
<br />
(d) 89.2%<br />
<br />
23. An astronomer observes that a Solar type star has an apparent V magnitude of 6.73 when seen from the Earth. Assuming that the average interstellar extinction in V is 1.00 mag/kpc, determine the distance between this star and the Solar system.<br />
<br />
(a) 11.5 pc<br />
<br />
(b) 49.5 pc<br />
<br />
(c) 34.2 pc<br />
<br />
(d) 23.7 pc<br />
<br />
(e) 18.9 pc<br />
<br />
24. 1. The temperature of the Sun is 5000K while that of Sirius is 10000K. Which star has a higher integrated radiance i.e. net energy emitted per unit time per unit area?<br />
<br />
(a) Sun<br />
<br />
(b) Sirius<br />
<br />
(c) Depends on value of the respective radii<br />
<br />
(d) The integrated radiance is equal.<br />
<br />
25. Suppose a spaceship is attempting a slingshot maneuver on a gas giant with mass 100 times that of the spaceship. Because the spaceship somewhat entered the planet’s atmosphere, kinetic energy was not conserved—only momentum. What is the ratio of the spaceship’s change in velocity to the planet’s change in velocity, $$\frac{{\Delta}v_{s}}{{\Delta}v_{p}}$$?<br />
<br />
(a) 10<br />
<br />
(b) 100<br />
<br />
(c) -10<br />
<br />
(d) -100<br />
<br />
26. Let’s imagine that our Universe would be filled with basketballs, each having a mass of $$m_{b}$$ = 0.62 kg. What would be the necessary numerical density ($$n_{b}$$) of basketballs in the Universe such that the mass density of the basketballs would equal the current critical density of our Universe?<br />
<br />
(a) 1.5 * 10<sup>-26</sup> balls/$$m_{3}$$<br />
<br />
(b) 1.7 * 10<sup>26</sup> balls/$$m_{3}$$<br />
<br />
(c) 1.5 * 10<sup>-27</sup> balls/$$m_{3}$$<br />
<br />
(d) 1.7 * 10<sup>27</sup> balls/$$m_{3}$$<br />
<br />
27. When binary systems are really close together, they can execute an accretion process, in which one star (called the primary star) ”eats” the mass of the other (called the secondary star), whose mass spirals down into the primary star, creating an accretion disk!<br />
<br />
For an accretion disk with the outer edge 3R from the center of the primary star (radius R and mass M), calculate the energy lost by a test mass (mass m) where it touches the primary star from where it first enters the accretion disk.<br />
<br />
Consider the orbits to be Keplerian.<br />
<br />
(a)$$\frac{GMm}{R}$$<br />
<br />
(b)$$\frac{1}{2}\frac{GMm}{R}$$<br />
<br />
(c)$$\frac{2}{5}\frac{GMm}{R}$$<br />
<br />
(d)$$\frac{2}{3}\frac{GMm}{R}$$<br />
<br />
(e)$$\frac{3}{4}\frac{GMm}{R}$$<br />
<br />
28. An often-repeated fun fact is that humans produce more power per unit volume than stars. If the sun were the same size, but it produced the same amount of power per unit volume as a human, what would its surface temperature be? Assume the “average human” produces 100 watts of power and has a volume of 66400 cubic centimeters.<br />
<br />
(a) 3500 K<br />
<br />
(b) 10000 K<br />
<br />
(c) 25000 K<br />
<br />
(d) 40000 K<br />
<br />
(e) 50000 K<br />
<br />
29. Given that the redshift of cosmic microwave background (CMB) is 1100, what was the temperature of the Universe when photon decoupled from matter and neutral hydrogen started to get formed? The present temperature of the CMB is 2.73 K.<br />
<br />
(a) 10000 K<br />
<br />
(b) 30000 K<br />
<br />
(c) 3000 K<br />
<br />
(d) 1000 K<br />
<br />
(e) 300 K<br />
<br />
30. Where and when should we place a radio telescope such that, when combined with a radio telescope on Earth, the system could ”see” the supermassive black hole in Sculptor’s Galaxy (NGC253)?<br />
<br />
Sculptor’s Galaxy’s supermassive black hole’s mass is estimated to be around 5• 10<sup>6</sup>$$M_{\odot}$$, and its distance is estimated to be around 3.5 Mpc.<br />
<br />
Out of the options below, pick the one closest to the estimate you obtain, rounding up. Consider the energy of a radio wave to be around 10<sup>-5</sup> eV.<br />
<br />
Use the following formula to estimate the angular resolution:$${\theta}=\frac{\lambda}{D}$$<br />
<br />
(a) On the Moon when it is at its apogee.<br />
<br />
(b) On Mars when it is in conjunction.<br />
<br />
(c) On Venus when it is in its greatest elongation.<br />
<br />
(d) On one of Jupiter’s moons when it is in opposition.<br />
<br />
(e) Somewhere in the farthest points of the Oort cloud when Earth is at its perihelion.<br />
<br />
==翻译==<br />
<br />
1.2020年12月21日, 木星在$$(\alpha,\delta)=(20^{h}10^{m},-20°34′)$$。土星在哪个星座?<br />
<br />
(a) 摩羯座<br />
<br />
(b) 宝瓶座<br />
<br />
(c) 双鱼座<br />
<br />
(d) 天鹰座<br />
<br />
2.光度5.86 * 10<sup>26</sup> W,半径8.51 * 10<sup>8</sup>m的恒星光谱型是什么?<br />
<br />
(a) A<br />
<br />
(b) F<br />
<br />
(c) G<br />
<br />
(d) K<br />
<br />
(e) M<br />
<br />
3.系外行星HD209458b质量是0.71倍木星质量,绕HD209458的公转周期是3.53天。HD209458质量是1.15倍太阳质量。假设它的公转轨道是圆轨道且恰好能被我们观测到,HD209458由HD209458b公转产生的径向速度的半振幅是多少?<br />
<br />
(a) 69.6m/s<br />
<br />
(b) 85.9m/s<br />
<br />
(c) 94.2m/s<br />
<br />
(d) 120.8m/s<br />
<br />
4.黑体的光子数密度和温度的关系:$$n_{d} = a(\frac{k_{B}T}{\hbar_{c}})^{n}$$,其中$$k_{B}$$是玻尔兹曼常数,$$\hbar$$是约化普朗克常数,$$c$$是光速,$$T$$是黑体的温度。$$a$$是一个无量纲的常数。$$n$$的值是多少?<br />
<br />
(a) 1<br />
<br />
(b) 2<br />
<br />
(c) 3<br />
<br />
(d) 4<br />
<br />
5.HD209458b的半径是木星的1.35倍,HD209458的半径是太阳的1.20倍,HD209458b的掩食深度是多少?<br />
<br />
(a) 0.013%<br />
<br />
(b) 0.13%<br />
<br />
(c) 1.3%<br />
<br />
(d) 13%<br />
<br />
6.关于大爆炸理论,以下哪项是正确的?<br />
<br />
(a)在大爆炸理论下,我们的宇宙不可能是平坦的或接近平坦的,这与观测结果相符。<br />
<br />
(b)在大爆炸理论下,复合前宇宙微波背景辐射达到热平衡是不可能的,尽管我们今天观测已经达到热平衡。<br />
<br />
(c)大爆炸理论预言有大量磁单极粒子,但我们还没有观测到它。<br />
<br />
(d)以上都对<br />
<br />
7.彗星C/2020 F3(NEOWISE)于2020年6月3日到达近日点。NEOWISE的周期是4400年,轨道偏心率是0.99921。它的近日距是多少?<br />
<br />
(a) 0.0123AU<br />
<br />
(b) 0.212AU<br />
<br />
(c) 2.69AU<br />
<br />
(d) 26.8AU<br />
<br />
8.一位天文学家发现了一个星系并决定分析它不同的部分。氢原子的自旋翻转跃迁的频率$$v_{0} = 1420.406MHz$$,在这个星系中被观测到$$v=1422.73MHz$$。<br />
<br />
1. 星族I恒星(1),它们含有(2)金属。<br />
<br />
2. 这个星系正在(3)我们,它的速度是(4)$$km*s^{-1}$$。<br />
<br />
(a) (1)年轻;(2)很少;(3)远离;(4)245<br />
<br />
(b) (1)年老;(2)很多;(3)靠近;(4)490<br />
<br />
(c) (1)年老;(2)很少;(3)远离;(4)490<br />
<br />
(d) (1)年轻;(2)很多;(3)靠近;(4)490<br />
<br />
(e) (1)您请;(2)很多;(3)靠近;(4)245<br />
<br />
9. 一个稳定的疏散星国有大约$$N = 1000$$个太阳这样的恒星,它的视直径$$\theta = 30’$$,距离$$d$$=500pc。假设这个星国可以近似成一个分布均匀的球,估计这个星团中恒星的平均速度。密度均匀的球的半径$$r$$与引力势能存在以下关系:<br />
<br />
$$U_{sphere} = -\frac{3}{5}\frac{GM^{2}_{sphere}}{r}$$<br />
<br />
(a) 507 m/s<br />
<br />
(b) 643 m/s<br />
<br />
(c) 894 m/s<br />
<br />
(d) 1021 m/s<br />
<br />
(e) 771 m/s<br />
<br />
10. 如果地球的轨道倾角变为0度,太阳的日行迹会发生什么?<br />
<br />
(a) 日行迹会呈现为一个关于两个轴的完美对称图形且仍然是“8”的形状。<br />
<br />
(b) 日行迹会变成一个点<br />
<br />
(c) 日行迹会变成一个圆<br />
<br />
(d) 日行迹会变成一个球面三角形<br />
<br />
11. 用$$T_{{\odot},C}$$和$$T_{{\odot},S}表示太阳的核心温度和表面温度。用$$T_{A,C}$$和$$T_{A,S}$表示大角星(Arcturus)的核心温度和表面温度,用$$T_{S,C}$$和$$T_{S,S}表示白矮星天狼星B(Sirius B)的核心温度和表面温度。以下哪个选项是正确的?<br />
<br />
(a) $$\frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{A,C}}{T_{A,S}} < \frac{T_{S,C}}{T_{S,S}}$$<br />
<br />
(b) $$\frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{S,C}}{T_{S,S}} < \frac{T_{A,C}}{T_{A,S}}$$<br />
<br />
(c) $$\frac{T_{A,C}}{T_{A,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{S,C}}{T_{S,S}}$$<br />
<br />
(d) $$\frac{T_{S,C}}{T_{S,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{A,C}}{T_{A,S}}$$<br />
<br />
(e) $$\frac{T_{S,C}}{T_{S,S}} < \frac{T_{A,C}}{T_{A,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}}$$<br />
<br />
12. 某颗恒星的$$H_{\alpha}$$谱线波长和有$${\Delta}{\lambda} = 0.043 {\times} 10^{-10}$$m的位移。静止状态下这条谱线的波长是$${\lambda}_{0} = 6.536 {\times} 10^{-7}$$m。如果这是在赤道上观测到的,请计算它的自转周期。已知这颗恒星的半径$$R_{star} = 8 {\times} 10^{5}$$km。<br />
<br />
(a) 29.59天<br />
<br />
(b) 14.63天<br />
<br />
(c) 21.15天<br />
<br />
(d) 34.39天</div>Dg1200https://www.astro-init.top/index.php?title=CNAO2022&diff=2468CNAO20222023-04-13T11:48:51Z<p>Dg1200:/* 相关链接 */</p>
<hr />
<div>2021-2022学年全国中学生天文知识竞赛预赛于2022年3月19日举行。<br />
<br />
2021-2022学年全国中学生天文知识竞赛决赛于2022年5月7日举行。<br />
==预赛==<br />
[[2021-2022学年CNAO选择题]]<br />
<br />
==决赛==<br />
[[2021-2022年CNAO决赛-注意事项]]<br />
<br />
[[2021-2022年CNAO决赛-数据表]]<br />
<br />
[[2021-2022年CNAO决赛第1题-排序]]<br />
<br />
[[2021-2022年CNAO决赛第2题-知识竞赛LOGO]]<br />
<br />
[[2021-2022年CNAO决赛第3题-类星体]]<br />
<br />
[[2021-2022年CNAO决赛第4题-红超巨星(仅低年组)]]<br />
<br />
[[2021-2022年CNAO决赛第5题-恒星基本参数(仅高年组)]]<br />
<br />
[[2021-2022年CNAO决赛第6题-观看视频后作答]]<br />
<br />
[[2021-2022年CNAO决赛第7题-观察星图后作答]]<br />
<br />
==相关链接==<br />
http://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c1367f2d5371017f2f905967003c.shtml (预赛报名)<br />
<br />
http://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c1367f84de0f017f864f19b40009.shtml (预赛报名情况和集中考点)<br />
<br />
http://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c1367fa8ea94017fab683ac70018.shtml (预赛成绩和入围分数线公布)<br />
<br />
http://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c136801a36f101801b803fed0002.shtml (决赛入围名单及决赛通知)<br />
<br />
http://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c13680c94eb60180cbd9dc110010.shtml (决赛获奖名单)</div>Dg1200https://www.astro-init.top/index.php?title=CNAO2023&diff=2467CNAO20232023-04-13T11:48:19Z<p>Dg1200:/* 相关链接 */</p>
<hr />
<div>2022-2023全国中学生天文知识竞赛预赛于2023年4月1日举行,决赛将于5月8日-12日在天津举行<br />
<br />
==预赛==<br />
<br />
[[预赛选择题]]<br />
<br />
==相关链接==<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c13686329d57018634b06733000c.shtml (预赛考点征集)<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c1368694762d018695cee94a0026.shtml (预赛报名通知)<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c13686d768d80186d89eef9d000c.shtml (预赛结果报名公示)<br />
<br />
https://www.bjp.org.cn/xwzx/gndt/4028c13687530175018754b67d27002e.shtml (预赛成绩公示)</div>Dg1200https://www.astro-init.top/index.php?title=CNAO2023&diff=2466CNAO20232023-04-13T11:47:19Z<p>Dg1200:</p>
<hr />
<div>2022-2023全国中学生天文知识竞赛预赛于2023年4月1日举行,决赛将于5月8日-12日在天津举行<br />
<br />
==预赛==<br />
<br />
[[预赛选择题]]<br />
<br />
==相关链接==<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c13686329d57018634b06733000c.shtml(预赛考点征集)<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c1368694762d018695cee94a0026.shtml(预赛报名通知)<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c13686d768d80186d89eef9d000c.shtml(预赛结果报名公示)<br />
<br />
https://www.bjp.org.cn/xwzx/gndt/4028c13687530175018754b67d27002e.shtml (预赛成绩公示)</div>Dg1200https://www.astro-init.top/index.php?title=2022-2023%E5%AD%A6%E5%B9%B4CNAO%E9%A2%84%E8%B5%9B%E9%80%89%E6%8B%A9%E9%A2%98&diff=24652022-2023学年CNAO预赛选择题2023-04-13T11:45:03Z<p>Dg1200:</p>
<hr />
<div>==试题==<br />
<br />
01. 今晚的月相更接近( )。<br />
<br />
A. 朔 B. 望 C. 下弦月 D.残月<br />
<br />
02. 以下哪颗恒星不属于“冬季大六边形“?( )<br />
<br />
A. 五车二 B. 参宿四 C. 南河三 D. 毕宿五<br />
<br />
03.M31是( )。<br />
<br />
A. 星云 B. 星团 C. 星系 D. 恒星<br />
<br />
04. “笔尖上的行星”是( )。<br />
<br />
A. 地球 B. 火星 C. 土星 D. 海王星<br />
<br />
05. 最早使用望远镜进行天文观测的科学家是( )。<br />
<br />
A. 哥白尼 B. 牛顿 C. 伽利略 D. 开普勒<br />
<br />
06. 象限仪流星雨的辐射点与以下哪个星座最近?( )<br />
<br />
A. 玉夫座 B. 武仙座 C. 狮子座 D. 六分仪座<br />
<br />
07. 天文学是自然科学六大基础学科之一,其主要的三个分支学科包括:天体测量学、天体力学、( )。<br />
<br />
A. 天体化学 B. 天体物理学 C. 天体生物学 D. 天文地理学<br />
<br />
08. 地月距离大约是( )个天文单位。<br />
<br />
A. 0.00001 B. 0.0025 C. 0.05 D. 1<br />
<br />
09. 北极星(小熊座 α)的目视亮度在全天恒星中排( )。<br />
<br />
A. 第 1 名 B. 第 5 名 C. 第 20 名左右 D. 第 50 名左右<br />
<br />
10. 以下节气(中气)出现在农历“正月”里概率最大的是( )。 <br />
<br />
A. 小寒 B. 大寒 C. 立春 D. 雨水<br />
<br />
11. 以下哪台已有或在建望远镜的有效口径最大?( )<br />
<br />
A. E-ELT B. GTC C. 昴星团望远镜 D. HET<br />
<br />
12. 在地球上任意一个位置,以下情况一定正确的是( )。<br />
<br />
A. 一年里每次太阳上中天的方位角相同。<br />
<br />
B. 一年里每次日出时(日心位于地平线上)太阳的方位角相同。 <br />
<br />
C. 一年里每次日出(日面出地平至完全出地平)的用时相同。 <br />
<br />
D. 其他几个选项都不正确。<br />
<br />
13. 在位于四川省甘孜藏族自治州稻城县的无名山天文台(100.108E,29.107N),观测者看 到一颗流星自北向南划过消失在地平线附近,在以下哪个天文台站有可能观测到同一颗流星?( )<br />
<br />
A. 西藏阿里(80.027E,32.326N) <br />
<br />
B. 新疆慕士塔格(74.897E,38.330N)<br />
<br />
C. 云南高美谷(100.029E,26.694N) <br />
<br />
D. 河北兴隆(117.577E,40.396N)<br />
<br />
14. 下次日食将发生在( )。<br />
<br />
A. 2023 年 4 月 20 日 B. 2023 年 10 月 27 日 C. 2023 年 11 月 23 日 D. 2024 年 4 月 9 日<br />
<br />
15. 昨晚日落后不久,不考虑天气和遮挡的影响,你所在地能看到最亮的行星是?( )<br />
<br />
A. 水星 B. 金星 C. 木星 D. 天王星<br />
<br />
16. 以下恒星中哪个看上去颜色更偏红?( )<br />
<br />
A. 参宿七 B. 织女星 C. 角宿一 D. 心宿二<br />
<br />
17. 以下哪个梅西叶天体不属于室女星系团?( )<br />
<br />
A. M60 B. M84 C. M87 D. M101<br />
<br />
18. 2022 年 7 月 12 日,詹姆斯韦布望远镜公开了首批科学图像,其中( )的科学图像中只包括光谱观测结果,而不包括成像观测结果。<br />
<br />
A. 船底座大星云“宇宙悬崖” <br />
<br />
B. WASP-96b 系外行星<br />
<br />
C. 南指环星云 <br />
<br />
D. SMACSJ0723 星系团<br />
<br />
19. 彗星 C/2022E3(ZTF)于 2023 年 1 月 12 日过近日点,当时位于后发座。该彗星轨道偏心率接近1,轨道倾角 109°。2223 年 4 月 1 日该彗星最可能位于以下哪个星座附近?( ) <br />
<br />
A. 天龙座 B. 天鹰座 C. 天鹤座. D. 天鹅座<br />
<br />
20. 以下哪一颗小天体不是由业余天文学家 Gennadiy Borisov 发现的?( ) <br />
<br />
A. 2023 BU B. C/2019 Q4 C. C/2017 K2 D. C/2013 V2<br />
<br />
21. 某次上弦月恰逢月亮位于白道对黄道的升交点,在某地月亮位于上中天时观测,月亮视 面被照亮部分占整个月面的比例为( )。<br />
<br />
A. 小于等于 40% B. 大于 40%小于 50% C. 等于 50% D. 大于 50%小于 60%<br />
<br />
22. 在以下太阳系的天然卫星中,轨道运行周期比其母行星的自转周期还短的是( )。<br />
<br />
A. 木卫一 B. 木卫四 C. 火卫一 D. 火卫二<br />
<br />
23. “荧惑守心”是中国史籍中的一种天象记载,其中的“荧惑”指的是( )。 <br />
<br />
A. 天狼星 B. 土星 C. 火星 D. 木星<br />
<br />
24. 在中国,有一种载人航天飞船叫“神舟”;有一种载人空间站叫“天宫”;有一种中继通信卫星叫“鹊桥”;有一种暗物质探测器叫“悟空”,下面哪个暂时还不是中国航天项目 的名称?( )<br />
<br />
A. 洛神 B. 嫦娥 C. 羲和 D. 祝融<br />
<br />
25. 2023 年是比利时耶稣会士南怀仁诞辰 600 周年,下列哪架天文仪器是南怀仁设计监制的?( )<br />
<br />
A. 玑衡抚辰仪 B. 纪限仪 C. 浑仪 D. 水运仪象台<br />
<br />
26. 在距离太阳 200 天文单位的地方释放一个石块,若仅考虑太阳引力作用,它需要多长时间落到太阳表面?( )<br />
<br />
A. 5 年 B. 50 年 C. 500 年 D. 5000 年<br />
<br />
27. 假设一个视星等为 18 等的星系的光全部均匀分布在视半径为 6 角秒的圆形区域中,其面 视星等是( )等/平方角秒。<br />
<br />
A. 13 B. 18 C. 23 D. 28<br />
<br />
28. 假设宇宙匀速膨胀,已知今天的哈勃常数 H0=70 km/s/Mpc,请问宇宙的年龄大约为? ( )<br />
<br />
A. 1 亿年 B. 10 亿年 C. 100 亿年 D. 1000 亿年<br />
<br />
29. 在刘慈欣的知名科幻小说《三体》中,我们的邻居比邻星上存在着比地球文明更高级的 三体文明。三体人由于生存环境恶劣,准备向地球迁移。假设三体舰队从比邻星出发,一直以 1/10 光速的速度向地球航行,走了比邻星到地球距离的 9/10 后,由于故障原地暂停。此时他们看到的太阳亮度( )。<br />
<br />
A. 变亮 1 个星等 B. 变亮 5 个星等 C. 变亮 10 个星等 D. 变亮 100 个星等<br />
<br />
30. 比邻星到我们的距离是 4.2 光年,在地球上看,它的周年视差是多少?( ) <br />
<br />
A. 1.58 角秒 B. 0.24 角秒 C. 0.77 角秒 D. 4.2 角秒<br />
<br />
31. 视向速度为 1000 km/s 的超高速恒星对应的红移/蓝移是多少?( ) <br />
<br />
A. 3 B. 0.3 C. 0.03 D. 0.003<br />
<br />
32. 多位邵逸夫天文学奖得主目前已获得诺贝尔物理学奖。以下哪项发现已获得了邵逸夫天文学奖,但尚未获得诺贝尔物理学奖?( )<br />
<br />
A. 发现重子声学振荡 B. 直接观测引力波 C. 银河系中心的超大质量黑洞 D. 首个环绕类太阳恒星的系外行星<br />
<br />
33. 建造中的中国空间站巡天望远镜(CSST)的工作波段范围是( )。<br />
<br />
A. 紫外–可见光 B. 光学–近红外 C. 光学–射电 D. 紫外–亚毫米波<br />
<br />
34. 射电望远镜可以组成干涉阵列,望远镜的最大间隔越长,角分辨率越好,其角分辨率的 计算方法与光学望远镜近似。如果在我国国土最东端和最西端分别修建射电望远镜并组网, 在 21 厘米的波长上进行观测,理论角分辨率是( )。<br />
<br />
A. 40纳角秒 B.2微角秒 C.8毫角秒 D.1-2角秒(受限于大气视宁度)<br />
<br />
35. “赫罗图”是天文学家最喜欢的图形之一,是研究恒星非常重要的工具。它是以恒星光 谱型(或表面温度)为横坐标,以绝对星等(光度)为纵坐标作图。我们从赫罗图中可以获 得很多恒星的信息,包括恒星的温度、光度、半径,分类和演化轨迹等。下图中,哪条线可以代表恒星半径在赫罗图上的分布规律(箭头方向代表越来越大)?( )<br />
<br />
==答案==<br />
<br />
BBCDC BBBDD ADCAB DDBCC DCCAB CCCBC DADCC</div>Dg1200https://www.astro-init.top/index.php?title=2022-2023%E5%AD%A6%E5%B9%B4CNAO%E9%A2%84%E8%B5%9B%E9%80%89%E6%8B%A9%E9%A2%98&diff=24642022-2023学年CNAO预赛选择题2023-04-13T11:44:28Z<p>Dg1200:</p>
<hr />
<div>==试题==<br />
<br />
01. 今晚的月相更接近( )。<br />
<br />
A. 朔 B. 望 C. 下弦月 D.残月<br />
<br />
02. 以下哪颗恒星不属于“冬季大六边形“?( )<br />
<br />
A. 五车二 B. 参宿四 C. 南河三 D. 毕宿五<br />
<br />
03.M31是( )。<br />
<br />
A. 星云 B. 星团 C. 星系 D. 恒星<br />
<br />
04. “笔尖上的行星”是( )。<br />
<br />
A. 地球 B. 火星 C. 土星 D. 海王星<br />
<br />
05. 最早使用望远镜进行天文观测的科学家是( )。<br />
<br />
A. 哥白尼 B. 牛顿 C. 伽利略 D. 开普勒<br />
06. 象限仪流星雨的辐射点与以下哪个星座最近?( )<br />
<br />
A. 玉夫座 B. 武仙座 C. 狮子座 D. 六分仪座<br />
<br />
07. 天文学是自然科学六大基础学科之一,其主要的三个分支学科包括:天体测量学、天体力学、( )。<br />
<br />
A. 天体化学 B. 天体物理学 C. 天体生物学 D. 天文地理学<br />
<br />
08. 地月距离大约是( )个天文单位。<br />
<br />
A. 0.00001 B. 0.0025 C. 0.05 D. 1<br />
<br />
09. 北极星(小熊座 α)的目视亮度在全天恒星中排( )。<br />
<br />
A. 第 1 名 B. 第 5 名 C. 第 20 名左右 D. 第 50 名左右<br />
<br />
10. 以下节气(中气)出现在农历“正月”里概率最大的是( )。 <br />
<br />
A. 小寒 B. 大寒 C. 立春 D. 雨水<br />
<br />
11. 以下哪台已有或在建望远镜的有效口径最大?( )<br />
<br />
A. E-ELT B. GTC C. 昴星团望远镜 D. HET<br />
<br />
12. 在地球上任意一个位置,以下情况一定正确的是( )。<br />
<br />
A. 一年里每次太阳上中天的方位角相同。<br />
<br />
B. 一年里每次日出时(日心位于地平线上)太阳的方位角相同。 <br />
<br />
C. 一年里每次日出(日面出地平至完全出地平)的用时相同。 <br />
<br />
D. 其他几个选项都不正确。<br />
<br />
13. 在位于四川省甘孜藏族自治州稻城县的无名山天文台(100.108E,29.107N),观测者看 到一颗流星自北向南划过消失在地平线附近,在以下哪个天文台站有可能观测到同一颗流星?( )<br />
<br />
A. 西藏阿里(80.027E,32.326N) B. 新疆慕士塔格(74.897E,38.330N)<br />
<br />
C. 云南高美谷(100.029E,26.694N) D. 河北兴隆(117.577E,40.396N)<br />
<br />
14. 下次日食将发生在( )。<br />
<br />
A. 2023 年 4 月 20 日 B. 2023 年 10 月 27 日 C. 2023 年 11 月 23 日 D. 2024 年 4 月 9 日<br />
<br />
15. 昨晚日落后不久,不考虑天气和遮挡的影响,你所在地能看到最亮的行星是?( )<br />
<br />
A. 水星 B. 金星 C. 木星 D. 天王星<br />
<br />
16. 以下恒星中哪个看上去颜色更偏红?( )<br />
<br />
A. 参宿七 B. 织女星 C. 角宿一 D. 心宿二<br />
<br />
17. 以下哪个梅西叶天体不属于室女星系团?( )<br />
<br />
A. M60 B. M84 C. M87 D. M101<br />
<br />
18. 2022 年 7 月 12 日,詹姆斯韦布望远镜公开了首批科学图像,其中( )的科学图像中只包括光谱观测结果,而不包括成像观测结果。<br />
<br />
A. 船底座大星云“宇宙悬崖” B. WASP-96b 系外行星<br />
<br />
C. 南指环星云 D. SMACSJ0723 星系团<br />
<br />
19. 彗星 C/2022E3(ZTF)于 2023 年 1 月 12 日过近日点,当时位于后发座。该彗星轨道偏心率接近1,轨道倾角 109°。2223 年 4 月 1 日该彗星最可能位于以下哪个星座附近?( ) <br />
<br />
A. 天龙座 B. 天鹰座 C. 天鹤座. D. 天鹅座<br />
<br />
20. 以下哪一颗小天体不是由业余天文学家 Gennadiy Borisov 发现的?( ) <br />
<br />
A. 2023 BU B. C/2019 Q4 C. C/2017 K2 D. C/2013 V2<br />
<br />
21. 某次上弦月恰逢月亮位于白道对黄道的升交点,在某地月亮位于上中天时观测,月亮视 面被照亮部分占整个月面的比例为( )。<br />
<br />
A. 小于等于 40% B. 大于 40%小于 50% C. 等于 50% D. 大于 50%小于 60%<br />
<br />
22. 在以下太阳系的天然卫星中,轨道运行周期比其母行星的自转周期还短的是( )。<br />
<br />
A. 木卫一 B. 木卫四 C. 火卫一 D. 火卫二<br />
<br />
23. “荧惑守心”是中国史籍中的一种天象记载,其中的“荧惑”指的是( )。 <br />
<br />
A. 天狼星 B. 土星 C. 火星 D. 木星<br />
<br />
24. 在中国,有一种载人航天飞船叫“神舟”;有一种载人空间站叫“天宫”;有一种中继通信卫星叫“鹊桥”;有一种暗物质探测器叫“悟空”,下面哪个暂时还不是中国航天项目 的名称?( )<br />
<br />
A. 洛神 B. 嫦娥 C. 羲和 D. 祝融<br />
<br />
25. 2023 年是比利时耶稣会士南怀仁诞辰 600 周年,下列哪架天文仪器是南怀仁设计监制的?( )<br />
<br />
A. 玑衡抚辰仪 B. 纪限仪 C. 浑仪 D. 水运仪象台<br />
<br />
26. 在距离太阳 200 天文单位的地方释放一个石块,若仅考虑太阳引力作用,它需要多长时间落到太阳表面?( )<br />
<br />
A. 5 年 B. 50 年 C. 500 年 D. 5000 年<br />
<br />
27. 假设一个视星等为 18 等的星系的光全部均匀分布在视半径为 6 角秒的圆形区域中,其面 视星等是( )等/平方角秒。<br />
<br />
A. 13 B. 18 C. 23 D. 28<br />
<br />
28. 假设宇宙匀速膨胀,已知今天的哈勃常数 H0=70 km/s/Mpc,请问宇宙的年龄大约为? ( )<br />
<br />
A. 1 亿年 B. 10 亿年 C. 100 亿年 D. 1000 亿年<br />
<br />
29. 在刘慈欣的知名科幻小说《三体》中,我们的邻居比邻星上存在着比地球文明更高级的 三体文明。三体人由于生存环境恶劣,准备向地球迁移。假设三体舰队从比邻星出发,一直以 1/10 光速的速度向地球航行,走了比邻星到地球距离的 9/10 后,由于故障原地暂停。此时他们看到的太阳亮度( )。<br />
<br />
A. 变亮 1 个星等 B. 变亮 5 个星等 C. 变亮 10 个星等 D. 变亮 100 个星等<br />
<br />
30. 比邻星到我们的距离是 4.2 光年,在地球上看,它的周年视差是多少?( ) <br />
<br />
A. 1.58 角秒 B. 0.24 角秒 C. 0.77 角秒 D. 4.2 角秒<br />
<br />
31. 视向速度为 1000 km/s 的超高速恒星对应的红移/蓝移是多少?( ) <br />
<br />
A. 3 B. 0.3 C. 0.03 D. 0.003<br />
<br />
32. 多位邵逸夫天文学奖得主目前已获得诺贝尔物理学奖。以下哪项发现已获得了邵逸夫天文学奖,但尚未获得诺贝尔物理学奖?( )<br />
<br />
A. 发现重子声学振荡 B. 直接观测引力波 C. 银河系中心的超大质量黑洞 D. 首个环绕类太阳恒星的系外行星<br />
<br />
33. 建造中的中国空间站巡天望远镜(CSST)的工作波段范围是( )。<br />
<br />
A. 紫外–可见光 B. 光学–近红外 C. 光学–射电 D. 紫外–亚毫米波<br />
<br />
34. 射电望远镜可以组成干涉阵列,望远镜的最大间隔越长,角分辨率越好,其角分辨率的 计算方法与光学望远镜近似。如果在我国国土最东端和最西端分别修建射电望远镜并组网, 在 21 厘米的波长上进行观测,理论角分辨率是( )。<br />
<br />
A. 40纳角秒 B.2微角秒 C.8毫角秒 D.1-2角秒(受限于大气视宁度)<br />
<br />
35. “赫罗图”是天文学家最喜欢的图形之一,是研究恒星非常重要的工具。它是以恒星光 谱型(或表面温度)为横坐标,以绝对星等(光度)为纵坐标作图。我们从赫罗图中可以获 得很多恒星的信息,包括恒星的温度、光度、半径,分类和演化轨迹等。下图中,哪条线可以代表恒星半径在赫罗图上的分布规律(箭头方向代表越来越大)?( )<br />
<br />
==答案==<br />
<br />
BBCDC BBBDD ADCAB DDBCC DCCAB CCCBC DADCC</div>Dg1200https://www.astro-init.top/index.php?title=2022-2023%E5%AD%A6%E5%B9%B4CNAO%E9%A2%84%E8%B5%9B%E9%80%89%E6%8B%A9%E9%A2%98&diff=24632022-2023学年CNAO预赛选择题2023-04-13T11:43:44Z<p>Dg1200:</p>
<hr />
<div>==试题==<br />
<br />
01. 今晚的月相更接近( )。<br />
<br />
A. 朔 B. 望 C. 下弦月 D.残月<br />
<br />
02. 以下哪颗恒星不属于“冬季大六边形“?( )<br />
<br />
A. 五车二 B. 参宿四 C. 南河三 D. 毕宿五<br />
<br />
03.M31是( )。<br />
<br />
A. 星云 B. 星团 C. 星系 D. 恒星<br />
<br />
04. “笔尖上的行星”是( )。<br />
<br />
A. 地球 B. 火星 C. 土星 D. 海王星<br />
<br />
05. 最早使用望远镜进行天文观测的科学家是( )。<br />
<br />
A. 哥白尼 B. 牛顿 C. 伽利略 D. 开普勒<br />
06. 象限仪流星雨的辐射点与以下哪个星座最近?( )<br />
<br />
A. 玉夫座 B. 武仙座 C. 狮子座 D. 六分仪座<br />
<br />
07. 天文学是自然科学六大基础学科之一,其主要的三个分支学科包括:天体测量学、天体 力学、( )。<br />
<br />
A. 天体化学 B. 天体物理学 C. 天体生物学 D. 天文地理学<br />
<br />
08. 地月距离大约是( )个天文单位。<br />
<br />
A. 0.00001 B. 0.0025 C. 0.05 D. 1<br />
<br />
09. 北极星(小熊座 α)的目视亮度在全天恒星中排( )。<br />
<br />
A. 第 1 名 B. 第 5 名 C. 第 20 名左右 D. 第 50 名左右<br />
<br />
10. 以下节气(中气)出现在农历“正月”里概率最大的是( )。 <br />
<br />
A. 小寒 B. 大寒 C. 立春 D. 雨水<br />
<br />
11. 以下哪台已有或在建望远镜的有效口径最大?( )<br />
<br />
A. E-ELT B. GTC C. 昴星团望远镜 D. HET<br />
<br />
12. 在地球上任意一个位置,以下情况一定正确的是( )。<br />
A. 一年里每次太阳上中天的方位角相同。<br />
<br />
B. 一年里每次日出时(日心位于地平线上)太阳的方位角相同。 <br />
<br />
C. 一年里每次日出(日面出地平至完全出地平)的用时相同。 <br />
<br />
D. 其他几个选项都不正确。<br />
13. 在位于四川省甘孜藏族自治州稻城县的无名山天文台(100.108E,29.107N),观测者看 到一颗流星自北向南划过消失在地平线附近,在以下哪个天文台站有可能观测到同一颗流星?( )<br />
<br />
A. 西藏阿里(80.027E,32.326N) B. 新疆慕士塔格(74.897E,38.330N)<br />
<br />
C. 云南高美谷(100.029E,26.694N) D. 河北兴隆(117.577E,40.396N)<br />
<br />
14. 下次日食将发生在( )。<br />
<br />
A. 2023 年 4 月 20 日 B. 2023 年 10 月 27 日 C. 2023 年 11 月 23 日 D. 2024 年 4 月 9 日<br />
<br />
15. 昨晚日落后不久,不考虑天气和遮挡的影响,你所在地能看到最亮的行星是?( )<br />
<br />
A. 水星 B. 金星 C. 木星 D. 天王星<br />
<br />
16. 以下恒星中哪个看上去颜色更偏红?( )<br />
<br />
A. 参宿七 B. 织女星 C. 角宿一 D. 心宿二<br />
<br />
17. 以下哪个梅西叶天体不属于室女星系团?( )<br />
<br />
A. M60 B. M84 C. M87 D. M101<br />
<br />
18. 2022 年 7 月 12 日,詹姆斯韦布望远镜公开了首批科学图像,其中( )的科学图像中只包括光谱观测结果,而不包括成像观测结果。<br />
<br />
A. 船底座大星云“宇宙悬崖” B. WASP-96b 系外行星<br />
<br />
C. 南指环星云 D. SMACSJ0723 星系团<br />
<br />
19. 彗星 C/2022E3(ZTF)于 2023 年 1 月 12 日过近日点,当时位于后发座。该彗星轨道偏心率接近1,轨道倾角 109°。2223 年 4 月 1 日该彗星最可能位于以下哪个星座附近?( ) <br />
<br />
A. 天龙座 B. 天鹰座 C. 天鹤座. D. 天鹅座<br />
<br />
20. 以下哪一颗小天体不是由业余天文学家 Gennadiy Borisov 发现的?( ) <br />
<br />
A. 2023 BU B. C/2019 Q4 C. C/2017 K2 D. C/2013 V2<br />
<br />
21. 某次上弦月恰逢月亮位于白道对黄道的升交点,在某地月亮位于上中天时观测,月亮视 面被照亮部分占整个月面的比例为( )。<br />
<br />
A. 小于等于 40% B. 大于 40%小于 50% C. 等于 50% D. 大于 50%小于 60%<br />
<br />
22. 在以下太阳系的天然卫星中,轨道运行周期比其母行星的自转周期还短的是( )。<br />
<br />
A. 木卫一 B. 木卫四 C. 火卫一 D. 火卫二<br />
<br />
23. “荧惑守心”是中国史籍中的一种天象记载,其中的“荧惑”指的是( )。 <br />
<br />
A. 天狼星 B. 土星 C. 火星 D. 木星<br />
<br />
24. 在中国,有一种载人航天飞船叫“神舟”;有一种载人空间站叫“天宫”;有一种中继通信卫星叫“鹊桥”;有一种暗物质探测器叫“悟空”,下面哪个暂时还不是中国航天项目 的名称?( )<br />
<br />
A. 洛神 B. 嫦娥 C. 羲和 D. 祝融<br />
<br />
25. 2023 年是比利时耶稣会士南怀仁诞辰 600 周年,下列哪架天文仪器是南怀仁设计监制的?( )<br />
<br />
A. 玑衡抚辰仪 B. 纪限仪 C. 浑仪 D. 水运仪象台<br />
<br />
26. 在距离太阳 200 天文单位的地方释放一个石块,若仅考虑太阳引力作用,它需要多长时间落到太阳表面?( )<br />
<br />
A. 5 年 B. 50 年 C. 500 年 D. 5000 年<br />
<br />
27. 假设一个视星等为 18 等的星系的光全部均匀分布在视半径为 6 角秒的圆形区域中,其面 视星等是( )等/平方角秒。<br />
<br />
A. 13 B. 18 C. 23 D. 28<br />
<br />
28. 假设宇宙匀速膨胀,已知今天的哈勃常数 H0=70 km/s/Mpc,请问宇宙的年龄大约为? ( )<br />
<br />
A. 1 亿年 B. 10 亿年 C. 100 亿年 D. 1000 亿年<br />
<br />
29. 在刘慈欣的知名科幻小说《三体》中,我们的邻居比邻星上存在着比地球文明更高级的 三体文明。三体人由于生存环境恶劣,准备向地球迁移。假设三体舰队从比邻星出发,一直以 1/10 光速的速度向地球航行,走了比邻星到地球距离的 9/10 后,由于故障原地暂停。此时他们看到的太阳亮度( )。<br />
<br />
A. 变亮 1 个星等 B. 变亮 5 个星等 C. 变亮 10 个星等 D. 变亮 100 个星等<br />
<br />
30. 比邻星到我们的距离是 4.2 光年,在地球上看,它的周年视差是多少?( ) <br />
<br />
A. 1.58 角秒 B. 0.24 角秒 C. 0.77 角秒 D. 4.2 角秒<br />
<br />
31. 视向速度为 1000 km/s 的超高速恒星对应的红移/蓝移是多少?( ) <br />
<br />
A. 3 B. 0.3 C. 0.03 D. 0.003<br />
<br />
32. 多位邵逸夫天文学奖得主目前已获得诺贝尔物理学奖。以下哪项发现已获得了邵逸夫天文学奖,但尚未获得诺贝尔物理学奖?( )<br />
<br />
A. 发现重子声学振荡 B. 直接观测引力波 C. 银河系中心的超大质量黑洞 D. 首个环绕类太阳恒星的系外行星<br />
<br />
33. 建造中的中国空间站巡天望远镜(CSST)的工作波段范围是( )。<br />
<br />
A. 紫外–可见光 B. 光学–近红外 C. 光学–射电 D. 紫外–亚毫米波<br />
<br />
34. 射电望远镜可以组成干涉阵列,望远镜的最大间隔越长,角分辨率越好,其角分辨率的 计算方法与光学望远镜近似。如果在我国国土最东端和最西端分别修建射电望远镜并组网, 在 21 厘米的波长上进行观测,理论角分辨率是( )。<br />
<br />
A. 40纳角秒 B.2微角秒 C.8毫角秒 D.1-2角秒(受限于大气视宁度)<br />
<br />
35. “赫罗图”是天文学家最喜欢的图形之一,是研究恒星非常重要的工具。它是以恒星光 谱型(或表面温度)为横坐标,以绝对星等(光度)为纵坐标作图。我们从赫罗图中可以获 得很多恒星的信息,包括恒星的温度、光度、半径,分类和演化轨迹等。下图中,哪条线可以代表恒星半径在赫罗图上的分布规律(箭头方向代表越来越大)?( )<br />
<br />
==答案==<br />
<br />
BBCDC BBBDD ADCAB DDBCC DCCAB CCCBC DADCC</div>Dg1200https://www.astro-init.top/index.php?title=2022-2023%E5%AD%A6%E5%B9%B4CNAO%E9%A2%84%E8%B5%9B%E9%80%89%E6%8B%A9%E9%A2%98&diff=24622022-2023学年CNAO预赛选择题2023-04-13T11:39:48Z<p>Dg1200:</p>
<hr />
<div>==试题==<br />
<br />
01. 今晚的月相更接近( )。<br />
<br />
A. 朔 B. 望 C. 下弦月 D.残月<br />
<br />
02. 以下哪颗恒星不属于“冬季大六边形“?( )<br />
<br />
A. 五车二 B. 参宿四 C. 南河三 D. 毕宿五<br />
<br />
03.M31是( )。<br />
<br />
A. 星云 B. 星团 C. 星系 D. 恒星<br />
<br />
04. “笔尖上的行星”是( )。<br />
<br />
A. 地球 B. 火星 C. 土星 D. 海王星<br />
<br />
05. 最早使用望远镜进行天文观测的科学家是( )。<br />
<br />
A. 哥白尼 B. 牛顿 C. 伽利略 D. 开普勒<br />
06. 象限仪流星雨的辐射点与以下哪个星座最近?( )<br />
<br />
A. 玉夫座 B. 武仙座 C. 狮子座 D. 六分仪座<br />
<br />
07. 天文学是自然科学六大基础学科之一,其主要的三个分支学科包括:天体测量学、天体 力学、( )。<br />
<br />
A. 天体化学 B. 天体物理学 C. 天体生物学 D. 天文地理学<br />
<br />
08. 地月距离大约是( )个天文单位。<br />
<br />
A. 0.00001 B. 0.0025 C. 0.05 D. 1<br />
<br />
09. 北极星(小熊座 α)的目视亮度在全天恒星中排( )。<br />
<br />
A. 第 1 名 B. 第 5 名 C. 第 20 名左右 D. 第 50 名左右<br />
<br />
10. 以下节气(中气)出现在农历“正月”里概率最大的是( )。 <br />
<br />
A. 小寒 B. 大寒 C. 立春 D. 雨水<br />
<br />
11. 以下哪台已有或在建望远镜的有效口径最大?( )<br />
<br />
A. E-ELT B. GTC C. 昴星团望远镜 D. HET<br />
<br />
12. 在地球上任意一个位置,以下情况一定正确的是( )。<br />
A. 一年里每次太阳上中天的方位角相同。<br />
<br />
B. 一年里每次日出时(日心位于地平线上)太阳的方位角相同。 <br />
<br />
C. 一年里每次日出(日面出地平至完全出地平)的用时相同。 <br />
<br />
D. 其他几个选项都不正确。<br />
13. 在位于四川省甘孜藏族自治州稻城县的无名山天文台(100.108E,29.107N),观测者看 到一颗流星自北向南划过消失在地平线附近,在以下哪个天文台站有可能观测到同一颗流星?( )<br />
<br />
A. 西藏阿里(80.027E,32.326N) B. 新疆慕士塔格(74.897E,38.330N)<br />
<br />
C. 云南高美谷(100.029E,26.694N) D. 河北兴隆(117.577E,40.396N)<br />
<br />
14. 下次日食将发生在( )。<br />
<br />
A. 2023 年 4 月 20 日 B. 2023 年 10 月 27 日 C. 2023 年 11 月 23 日 D. 2024 年 4 月 9 日<br />
<br />
15. 昨晚日落后不久,不考虑天气和遮挡的影响,你所在地能看到最亮的行星是?( )<br />
<br />
A. 水星 B. 金星 C. 木星 D. 天王星<br />
<br />
16. 以下恒星中哪个看上去颜色更偏红?( )<br />
<br />
A. 参宿七 B. 织女星 C. 角宿一 D. 心宿二<br />
<br />
17. 以下哪个梅西叶天体不属于室女星系团?( )<br />
<br />
A. M60 B. M84 C. M87 D. M101<br />
<br />
18. 2022 年 7 月 12 日,詹姆斯韦布望远镜公开了首批科学图像,其中( )的科学图像中只包括光谱观测结果,而不包括成像观测结果。<br />
<br />
A. 船底座大星云“宇宙悬崖” B. WASP-96b 系外行星<br />
<br />
C. 南指环星云 D. SMACSJ0723 星系团<br />
<br />
19. 彗星 C/2022E3(ZTF)于 2023 年 1 月 12 日过近日点,当时位于后发座。该彗星轨道偏心率接近1,轨道倾角 109°。2223 年 4 月 1 日该彗星最可能位于以下哪个星座附近?( ) <br />
<br />
A. 天龙座 B. 天鹰座 C. 天鹤座. D. 天鹅座<br />
<br />
20. 以下哪一颗小天体不是由业余天文学家 Gennadiy Borisov 发现的?( ) <br />
<br />
A. 2023 BU B. C/2019 Q4 C. C/2017 K2 D. C/2013 V2<br />
<br />
21. 某次上弦月恰逢月亮位于白道对黄道的升交点,在某地月亮位于上中天时观测,月亮视 面被照亮部分占整个月面的比例为( )。<br />
<br />
A. 小于等于 40% B. 大于 40%小于 50% C. 等于 50% D. 大于 50%小于 60%<br />
<br />
22. 在以下太阳系的天然卫星中,轨道运行周期比其母行星的自转周期还短的是( )。<br />
<br />
A. 木卫一 B. 木卫四 C. 火卫一 D. 火卫二<br />
<br />
23. “荧惑守心”是中国史籍中的一种天象记载,其中的“荧惑”指的是( )。 <br />
<br />
A. 天狼星 B. 土星 C. 火星 D. 木星<br />
<br />
24. 在中国,有一种载人航天飞船叫“神舟”;有一种载人空间站叫“天宫”;有一种中继通信卫星叫“鹊桥”;有一种暗物质探测器叫“悟空”,下面哪个暂时还不是中国航天项目 的名称?( )<br />
<br />
A. 洛神 B. 嫦娥 C. 羲和 D. 祝融<br />
<br />
25. 2023 年是比利时耶稣会士南怀仁诞辰 600 周年,下列哪架天文仪器是南怀仁设计监制的?( )<br />
<br />
A. 玑衡抚辰仪 B. 纪限仪 C. 浑仪 D. 水运仪象台<br />
<br />
26. 在距离太阳 200 天文单位的地方释放一个石块,若仅考虑太阳引力作用,它需要多长时间落到太阳表面?( )<br />
<br />
A. 5 年 B. 50 年 C. 500 年 D. 5000 年<br />
<br />
27. 假设一个视星等为 18 等的星系的光全部均匀分布在视半径为 6 角秒的圆形区域中,其面 视星等是( )等/平方角秒。<br />
<br />
A. 13 B. 18 C. 23 D. 28<br />
<br />
28. 假设宇宙匀速膨胀,已知今天的哈勃常数 H0=70 km/s/Mpc,请问宇宙的年龄大约为? ( )<br />
<br />
A. 1 亿年 B. 10 亿年 C. 100 亿年 D. 1000 亿年<br />
<br />
29. 在刘慈欣的知名科幻小说《三体》中,我们的邻居比邻星上存在着比地球文明更高级的 三体文明。三体人由于生存环境恶劣,准备向地球迁移。假设三体舰队从比邻星出发,一直以 1/10 光速的速度向地球航行,走了比邻星到地球距离的 9/10 后,由于故障原地暂停。此时他们看到的太阳亮度( )。<br />
<br />
A. 变亮 1 个星等 B. 变亮 5 个星等 C. 变亮 10 个星等 D. 变亮 100 个星等<br />
<br />
30. 比邻星到我们的距离是 4.2 光年,在地球上看,它的周年视差是多少?( ) <br />
<br />
A. 1.58 角秒 B. 0.24 角秒 C. 0.77 角秒 D. 4.2 角秒<br />
<br />
31. 视向速度为 1000 km/s 的超高速恒星对应的红移/蓝移是多少?( ) <br />
<br />
A. 3 B. 0.3 C. 0.03 D. 0.003<br />
<br />
32. 多位邵逸夫天文学奖得主目前已获得诺贝尔物理学奖。以下哪项发现已获得了邵逸夫天文学奖,但尚未获得诺贝尔物理学奖?( )<br />
<br />
A. 发现重子声学振荡 B. 直接观测引力波 C. 银河系中心的超大质量黑洞 D. 首个环绕类太阳恒星的系外行星<br />
<br />
33. 建造中的中国空间站巡天望远镜(CSST)的工作波段范围是( )。<br />
<br />
A. 紫外–可见光 B. 光学–近红外 C. 光学–射电 D. 紫外–亚毫米波<br />
<br />
34. 射电望远镜可以组成干涉阵列,望远镜的最大间隔越长,角分辨率越好,其角分辨率的 计算方法与光学望远镜近似。如果在我国国土最东端和最西端分别修建射电望远镜并组网, 在 21 厘米的波长上进行观测,理论角分辨率是( )。<br />
<br />
A. 40纳角秒 B.2微角秒 C.8毫角秒 D.1-2角秒(受限于大气视宁度)<br />
<br />
35. “赫罗图”是天文学家最喜欢的图形之一,是研究恒星非常重要的工具。它是以恒星光 谱型(或表面温度)为横坐标,以绝对星等(光度)为纵坐标作图。我们从赫罗图中可以获 得很多恒星的信息,包括恒星的温度、光度、半径,分类和演化轨迹等。下图中,哪条线可以代表恒星半径在赫罗图上的分布规律(箭头方向代表越来越大)?( )</div>Dg1200https://www.astro-init.top/index.php?title=2022-2023%E5%AD%A6%E5%B9%B4CNAO%E9%A2%84%E8%B5%9B%E9%80%89%E6%8B%A9%E9%A2%98&diff=24612022-2023学年CNAO预赛选择题2023-04-13T11:39:41Z<p>Dg1200:</p>
<hr />
<div>==试题==<br />
<br />
01. 今晚的月相更接近( )。<br />
<br />
A. 朔 B. 望 C. 下弦月 D.残月<br />
<br />
02. 以下哪颗恒星不属于“冬季大六边形“?( )<br />
<br />
A. 五车二 B. 参宿四 C. 南河三 D. 毕宿五<br />
<br />
03.M31是( )。<br />
<br />
A. 星云 B. 星团 C. 星系 D. 恒星<br />
<br />
04. “笔尖上的行星”是( )。<br />
<br />
A. 地球 B. 火星 C. 土星 D. 海王星<br />
<br />
05. 最早使用望远镜进行天文观测的科学家是( )。<br />
<br />
A. 哥白尼 B. 牛顿 C. 伽利略 D. 开普勒<br />
06. 象限仪流星雨的辐射点与以下哪个星座最近?( )<br />
<br />
A. 玉夫座 B. 武仙座 C. 狮子座 D. 六分仪座<br />
<br />
07. 天文学是自然科学六大基础学科之一,其主要的三个分支学科包括:天体测量学、天体 力学、( )。<br />
<br />
A. 天体化学 B. 天体物理学 C. 天体生物学 D. 天文地理学<br />
<br />
08. 地月距离大约是( )个天文单位。<br />
<br />
A. 0.00001 B. 0.0025 C. 0.05 D. 1<br />
<br />
09. 北极星(小熊座 α)的目视亮度在全天恒星中排( )。<br />
<br />
A. 第 1 名 B. 第 5 名 C. 第 20 名左右 D. 第 50 名左右<br />
<br />
10. 以下节气(中气)出现在农历“正月”里概率最大的是( )。 <br />
<br />
A. 小寒 B. 大寒 C. 立春 D. 雨水<br />
<br />
11. 以下哪台已有或在建望远镜的有效口径最大?( )<br />
<br />
A. E-ELT B. GTC C. 昴星团望远镜 D. HET<br />
<br />
12. 在地球上任意一个位置,以下情况一定正确的是( )。<br />
A. 一年里每次太阳上中天的方位角相同。<br />
<br />
B. 一年里每次日出时(日心位于地平线上)太阳的方位角相同。 <br />
<br />
C. 一年里每次日出(日面出地平至完全出地平)的用时相同。 <br />
<br />
D. 其他几个选项都不正确。<br />
13. 在位于四川省甘孜藏族自治州稻城县的无名山天文台(100.108E,29.107N),观测者看 到一颗流星自北向南划过消失在地平线附近,在以下哪个天文台站有可能观测到同一颗流星?( )<br />
<br />
A. 西藏阿里(80.027E,32.326N) B. 新疆慕士塔格(74.897E,38.330N)<br />
<br />
C. 云南高美谷(100.029E,26.694N) D. 河北兴隆(117.577E,40.396N)<br />
<br />
14. 下次日食将发生在( )。<br />
<br />
A. 2023 年 4 月 20 日 B. 2023 年 10 月 27 日 C. 2023 年 11 月 23 日 D. 2024 年 4 月 9 日<br />
<br />
15. 昨晚日落后不久,不考虑天气和遮挡的影响,你所在地能看到最亮的行星是?( )<br />
<br />
A. 水星 B. 金星 C. 木星 D. 天王星<br />
<br />
16. 以下恒星中哪个看上去颜色更偏红?( )<br />
<br />
A. 参宿七 B. 织女星 C. 角宿一 D. 心宿二<br />
<br />
17. 以下哪个梅西叶天体不属于室女星系团?( )<br />
<br />
A. M60 B. M84 C. M87 D. M101<br />
<br />
18. 2022 年 7 月 12 日,詹姆斯韦布望远镜公开了首批科学图像,其中( )的科学图像中只包括光谱观测结果,而不包括成像观测结果。<br />
<br />
A. 船底座大星云“宇宙悬崖” B. WASP-96b 系外行星<br />
<br />
C. 南指环星云 D. SMACSJ0723 星系团<br />
<br />
19. 彗星 C/2022E3(ZTF)于 2023 年 1 月 12 日过近日点,当时位于后发座。该彗星轨道偏心率接近1,轨道倾角 109°。2223 年 4 月 1 日该彗星最可能位于以下哪个星座附近?( ) <br />
<br />
A. 天龙座 B. 天鹰座 C. 天鹤座. D. 天鹅座<br />
<br />
20. 以下哪一颗小天体不是由业余天文学家 Gennadiy Borisov 发现的?( ) <br />
<br />
A. 2023 BU B. C/2019 Q4 C. C/2017 K2 D. C/2013 V2<br />
<br />
21. 某次上弦月恰逢月亮位于白道对黄道的升交点,在某地月亮位于上中天时观测,月亮视 面被照亮部分占整个月面的比例为( )。<br />
<br />
A. 小于等于 40% B. 大于 40%小于 50% C. 等于 50% D. 大于 50%小于 60%<br />
<br />
22. 在以下太阳系的天然卫星中,轨道运行周期比其母行星的自转周期还短的是( )。<br />
<br />
A. 木卫一 B. 木卫四 C. 火卫一 D. 火卫二<br />
<br />
23. “荧惑守心”是中国史籍中的一种天象记载,其中的“荧惑”指的是( )。 <br />
<br />
A. 天狼星 B. 土星 C. 火星 D. 木星<br />
<br />
24. 在中国,有一种载人航天飞船叫“神舟”;有一种载人空间站叫“天宫”;有一种中继通信卫星叫“鹊桥”;有一种暗物质探测器叫“悟空”,下面哪个暂时还不是中国航天项目 的名称?( )<br />
<br />
A. 洛神 B. 嫦娥 C. 羲和 D. 祝融<br />
<br />
25. 2023 年是比利时耶稣会士南怀仁诞辰 600 周年,下列哪架天文仪器是南怀仁设计监制的?( )<br />
<br />
A. 玑衡抚辰仪 B. 纪限仪 C. 浑仪 D. 水运仪象台<br />
<br />
26. 在距离太阳 200 天文单位的地方释放一个石块,若仅考虑太阳引力作用,它需要多长时间落到太阳表面?( )<br />
<br />
A. 5 年 B. 50 年 C. 500 年 D. 5000 年<br />
<br />
27. 假设一个视星等为 18 等的星系的光全部均匀分布在视半径为 6 角秒的圆形区域中,其面 视星等是( )等/平方角秒。<br />
<br />
A. 13 B. 18 C. 23 D. 28<br />
<br />
28. 假设宇宙匀速膨胀,已知今天的哈勃常数 H0=70 km/s/Mpc,请问宇宙的年龄大约为? ( )<br />
<br />
A. 1 亿年 B. 10 亿年 C. 100 亿年 D. 1000 亿年<br />
<br />
29. 在刘慈欣的知名科幻小说《三体》中,我们的邻居比邻星上存在着比地球文明更高级的 三体文明。三体人由于生存环境恶劣,准备向地球迁移。假设三体舰队从比邻星出发,一直以 1/10 光速的速度向地球航行,走了比邻星到地球距离的 9/10 后,由于故障原地暂停。此时他们看到的太阳亮度( )。<br />
<br />
A. 变亮 1 个星等 B. 变亮 5 个星等 C. 变亮 10 个星等 D. 变亮 100 个星等<br />
<br />
30. 比邻星到我们的距离是 4.2 光年,在地球上看,它的周年视差是多少?( ) <br />
<br />
A. 1.58 角秒 B. 0.24 角秒 C. 0.77 角秒 D. 4.2 角秒<br />
<br />
31. 视向速度为 1000 km/s 的超高速恒星对应的红移/蓝移是多少?( ) <br />
<br />
A. 3 B. 0.3 C. 0.03 D. 0.003<br />
<br />
32. 多位邵逸夫天文学奖得主目前已获得诺贝尔物理学奖。以下哪项发现已获得了邵逸夫天文学奖,但尚未获得诺贝尔物理学奖?( )<br />
<br />
A. 发现重子声学振荡 B. 直接观测引力波 C. 银河系中心的超大质量黑洞 D. 首个环绕类太阳恒星的系外行星<br />
<br />
33. 建造中的中国空间站巡天望远镜(CSST)的工作波段范围是( )。<br />
<br />
A. 紫外–可见光 B. 光学–近红外 C. 光学–射电 D. 紫外–亚毫米波<br />
<br />
34. 射电望远镜可以组成干涉阵列,望远镜的最大间隔越长,角分辨率越好,其角分辨率的 计算方法与光学望远镜近似。如果在我国国土最东端和最西端分别修建射电望远镜并组网, 在 21 厘米的波长上进行观测,理论角分辨率是( )。<br />
<br />
A. 40纳角秒 B.2微角秒 C.8毫角秒 D.1-2角秒(受限于大气视宁度)<br />
<br />
35. “赫罗图”是天文学家最喜欢的图形之一,是研究恒星非常重要的工具。它是以恒星光 谱型(或表面温度)为横坐标,以绝对星等(光度)为纵坐标作图。我们从赫罗图中可以获 得很多恒星的信息,包括恒星的温度、光度、半径,分类和演化轨迹等。下图中,哪条线可以代表恒星半径在赫罗图上的分布规律(箭头方向代表越来越大)?( )</div>Dg1200https://www.astro-init.top/index.php?title=2022-2023%E5%AD%A6%E5%B9%B4CNAO%E9%A2%84%E8%B5%9B%E9%80%89%E6%8B%A9%E9%A2%98&diff=24602022-2023学年CNAO预赛选择题2023-04-13T11:38:56Z<p>Dg1200:创建页面,内容为“01. 今晚的月相更接近( )。 A. 朔 B. 望 C. 下弦月 D.残月 02. 以下哪颗恒星不属于“冬季大六边形“?( ) A. 五车二 B. 参宿四 C.…”</p>
<hr />
<div>01. 今晚的月相更接近( )。<br />
<br />
A. 朔 B. 望 C. 下弦月 D.残月<br />
<br />
02. 以下哪颗恒星不属于“冬季大六边形“?( )<br />
<br />
A. 五车二 B. 参宿四 C. 南河三 D. 毕宿五<br />
<br />
03.M31是( )。<br />
<br />
A. 星云 B. 星团 C. 星系 D. 恒星<br />
<br />
04. “笔尖上的行星”是( )。<br />
<br />
A. 地球 B. 火星 C. 土星 D. 海王星<br />
<br />
05. 最早使用望远镜进行天文观测的科学家是( )。<br />
<br />
A. 哥白尼 B. 牛顿 C. 伽利略 D. 开普勒<br />
06. 象限仪流星雨的辐射点与以下哪个星座最近?( )<br />
<br />
A. 玉夫座 B. 武仙座 C. 狮子座 D. 六分仪座<br />
<br />
07. 天文学是自然科学六大基础学科之一,其主要的三个分支学科包括:天体测量学、天体 力学、( )。<br />
<br />
A. 天体化学 B. 天体物理学 C. 天体生物学 D. 天文地理学<br />
<br />
08. 地月距离大约是( )个天文单位。<br />
<br />
A. 0.00001 B. 0.0025 C. 0.05 D. 1<br />
<br />
09. 北极星(小熊座 α)的目视亮度在全天恒星中排( )。<br />
<br />
A. 第 1 名 B. 第 5 名 C. 第 20 名左右 D. 第 50 名左右<br />
<br />
10. 以下节气(中气)出现在农历“正月”里概率最大的是( )。 <br />
<br />
A. 小寒 B. 大寒 C. 立春 D. 雨水<br />
<br />
11. 以下哪台已有或在建望远镜的有效口径最大?( )<br />
<br />
A. E-ELT B. GTC C. 昴星团望远镜 D. HET<br />
<br />
12. 在地球上任意一个位置,以下情况一定正确的是( )。<br />
A. 一年里每次太阳上中天的方位角相同。<br />
<br />
B. 一年里每次日出时(日心位于地平线上)太阳的方位角相同。 <br />
<br />
C. 一年里每次日出(日面出地平至完全出地平)的用时相同。 <br />
<br />
D. 其他几个选项都不正确。<br />
13. 在位于四川省甘孜藏族自治州稻城县的无名山天文台(100.108E,29.107N),观测者看 到一颗流星自北向南划过消失在地平线附近,在以下哪个天文台站有可能观测到同一颗流星?( )<br />
<br />
A. 西藏阿里(80.027E,32.326N) B. 新疆慕士塔格(74.897E,38.330N)<br />
<br />
C. 云南高美谷(100.029E,26.694N) D. 河北兴隆(117.577E,40.396N)<br />
<br />
14. 下次日食将发生在( )。<br />
<br />
A. 2023 年 4 月 20 日 B. 2023 年 10 月 27 日 C. 2023 年 11 月 23 日 D. 2024 年 4 月 9 日<br />
<br />
15. 昨晚日落后不久,不考虑天气和遮挡的影响,你所在地能看到最亮的行星是?( )<br />
<br />
A. 水星 B. 金星 C. 木星 D. 天王星<br />
<br />
16. 以下恒星中哪个看上去颜色更偏红?( )<br />
<br />
A. 参宿七 B. 织女星 C. 角宿一 D. 心宿二<br />
<br />
17. 以下哪个梅西叶天体不属于室女星系团?( )<br />
<br />
A. M60 B. M84 C. M87 D. M101<br />
<br />
18. 2022 年 7 月 12 日,詹姆斯韦布望远镜公开了首批科学图像,其中( )的科学图像中只包括光谱观测结果,而不包括成像观测结果。<br />
<br />
A. 船底座大星云“宇宙悬崖” B. WASP-96b 系外行星<br />
<br />
C. 南指环星云 D. SMACSJ0723 星系团<br />
<br />
19. 彗星 C/2022E3(ZTF)于 2023 年 1 月 12 日过近日点,当时位于后发座。该彗星轨道偏心率接近1,轨道倾角 109°。2223 年 4 月 1 日该彗星最可能位于以下哪个星座附近?( ) <br />
<br />
A. 天龙座 B. 天鹰座 C. 天鹤座. D. 天鹅座<br />
<br />
20. 以下哪一颗小天体不是由业余天文学家 Gennadiy Borisov 发现的?( ) <br />
<br />
A. 2023 BU B. C/2019 Q4 C. C/2017 K2 D. C/2013 V2<br />
<br />
21. 某次上弦月恰逢月亮位于白道对黄道的升交点,在某地月亮位于上中天时观测,月亮视 面被照亮部分占整个月面的比例为( )。<br />
<br />
A. 小于等于 40% B. 大于 40%小于 50% C. 等于 50% D. 大于 50%小于 60%<br />
<br />
22. 在以下太阳系的天然卫星中,轨道运行周期比其母行星的自转周期还短的是( )。<br />
<br />
A. 木卫一 B. 木卫四 C. 火卫一 D. 火卫二<br />
<br />
23. “荧惑守心”是中国史籍中的一种天象记载,其中的“荧惑”指的是( )。 <br />
<br />
A. 天狼星 B. 土星 C. 火星 D. 木星<br />
<br />
24. 在中国,有一种载人航天飞船叫“神舟”;有一种载人空间站叫“天宫”;有一种中继通信卫星叫“鹊桥”;有一种暗物质探测器叫“悟空”,下面哪个暂时还不是中国航天项目 的名称?( )<br />
<br />
A. 洛神 B. 嫦娥 C. 羲和 D. 祝融<br />
<br />
25. 2023 年是比利时耶稣会士南怀仁诞辰 600 周年,下列哪架天文仪器是南怀仁设计监制的?( )<br />
<br />
A. 玑衡抚辰仪 B. 纪限仪 C. 浑仪 D. 水运仪象台<br />
<br />
26. 在距离太阳 200 天文单位的地方释放一个石块,若仅考虑太阳引力作用,它需要多长时间落到太阳表面?( )<br />
<br />
A. 5 年 B. 50 年 C. 500 年 D. 5000 年<br />
<br />
27. 假设一个视星等为 18 等的星系的光全部均匀分布在视半径为 6 角秒的圆形区域中,其面 视星等是( )等/平方角秒。<br />
<br />
A. 13 B. 18 C. 23 D. 28<br />
<br />
28. 假设宇宙匀速膨胀,已知今天的哈勃常数 H0=70 km/s/Mpc,请问宇宙的年龄大约为? ()<br />
<br />
A. 1 亿年 B. 10 亿年 C. 100 亿年 D. 1000 亿年<br />
<br />
29. 在刘慈欣的知名科幻小说《三体》中,我们的邻居比邻星上存在着比地球文明更高级的 三体文明。三体人由于生存环境恶劣,准备向地球迁移。假设三体舰队从比邻星出发,一直以 1/10 光速的速度向地球航行,走了比邻星到地球距离的 9/10 后,由于故障原地暂停。此时他们看到的太阳亮度( )。<br />
<br />
A. 变亮 1 个星等 B. 变亮 5 个星等 C. 变亮 10 个星等 D. 变亮 100 个星等<br />
<br />
30. 比邻星到我们的距离是 4.2 光年,在地球上看,它的周年视差是多少?( ) <br />
<br />
A. 1.58 角秒 B. 0.24 角秒 C. 0.77 角秒 D. 4.2 角秒<br />
<br />
31. 视向速度为 1000 km/s 的超高速恒星对应的红移/蓝移是多少?( ) <br />
<br />
A. 3 B. 0.3 C. 0.03 D. 0.003<br />
<br />
32. 多位邵逸夫天文学奖得主目前已获得诺贝尔物理学奖。以下哪项发现已获得了邵逸夫天文学奖,但尚未获得诺贝尔物理学奖?( )<br />
<br />
A. 发现重子声学振荡 B. 直接观测引力波 C. 银河系中心的超大质量黑洞 D. 首个环绕类太阳恒星的系外行星<br />
<br />
33. 建造中的中国空间站巡天望远镜(CSST)的工作波段范围是( )。<br />
<br />
A. 紫外–可见光 B. 光学–近红外 C. 光学–射电 D. 紫外–亚毫米波<br />
<br />
34. 射电望远镜可以组成干涉阵列,望远镜的最大间隔越长,角分辨率越好,其角分辨率的 计算方法与光学望远镜近似。如果在我国国土最东端和最西端分别修建射电望远镜并组网, 在 21 厘米的波长上进行观测,理论角分辨率是( )。<br />
<br />
A. 40纳角秒 B.2微角秒 C.8毫角秒 D.1-2角秒(受限于大气视宁度)<br />
<br />
35. “赫罗图”是天文学家最喜欢的图形之一,是研究恒星非常重要的工具。它是以恒星光 谱型(或表面温度)为横坐标,以绝对星等(光度)为纵坐标作图。我们从赫罗图中可以获 得很多恒星的信息,包括恒星的温度、光度、半径,分类和演化轨迹等。下图中,哪条线可以代表恒星半径在赫罗图上的分布规律(箭头方向代表越来越大)?( )</div>Dg1200https://www.astro-init.top/index.php?title=CNAO2023&diff=2459CNAO20232023-04-13T11:30:28Z<p>Dg1200:</p>
<hr />
<div>2022-2023全国中学生天文知识竞赛预赛于2023年4月1日举行,决赛将于5月8日-12日在天津举行<br />
<br />
==预赛==<br />
<br />
[[预赛选择题]]<br />
<br />
==相关链接==<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c13686329d57018634b06733000c.shtml(预赛考点征集)<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c1368694762d018695cee94a0026.shtml(预赛报名通知)<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c13686d768d80186d89eef9d000c.shtml(预赛结果报名公示)</div>Dg1200https://www.astro-init.top/index.php?title=CNAO2023&diff=2458CNAO20232023-04-13T11:29:44Z<p>Dg1200:</p>
<hr />
<div>2022-2023全国中学生天文知识竞赛预赛于2023年4月1日举行,决赛将于5月8日-12日在天津举行<br />
<br />
==预赛==<br />
<br />
==相关链接==<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c13686329d57018634b06733000c.shtml(预赛考点征集)<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c1368694762d018695cee94a0026.shtml(预赛报名通知)<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c13686d768d80186d89eef9d000c.shtml(预赛结果报名公示)</div>Dg1200https://www.astro-init.top/index.php?title=CNAO2023&diff=2457CNAO20232023-04-06T09:12:31Z<p>Dg1200:</p>
<hr />
<div>2022-2023全国中学生天文知识竞赛预赛于2023年4月1日举行<br />
<br />
==相关链接==<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c13686329d57018634b06733000c.shtml(预赛考点征集)<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c1368694762d018695cee94a0026.shtml(预赛报名通知)<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c13686d768d80186d89eef9d000c.shtml(预赛结果报名公示)</div>Dg1200https://www.astro-init.top/index.php?title=2021USAAAO%E9%A2%84%E8%B5%9B%E9%80%89%E6%8B%A9%E9%A2%98&diff=24562021USAAAO预赛选择题2023-03-28T04:09:16Z<p>Dg1200:</p>
<hr />
<div>==题目==<br />
<br />
1. On December 21, 2020, Jupiter was at $$(\alpha,\delta)=(20^{h}10^{m},-20°34′)$$. Which constellation was Saturn in?<br />
<br />
(a) Capricornus<br />
<br />
(b) Aquarius<br />
<br />
(c) Pisces<br />
<br />
(d) Aquila<br />
<br />
2. What is the spectral type of a star with a luminosity of 5.86 * 10<sup>26</sup> W and radius of 8.51 * 10<sup>8</sup> m?<br />
<br />
(a) A<br />
<br />
(b) F<br />
<br />
(c) G<br />
<br />
(d) K<br />
<br />
(e) M<br />
<br />
3. The exoplanet HD 209458b has a mass of 0.71 Jupiter masses and orbits HD 209458 with an orbital period of 3.53 days. HD 209458 has a mass of 1.15 Solar masses. Assuming that the orbit of HD 209458b is circular (which is a good approximation here) and that its orbit lies perfectly in our line of sight, what is the radial velocity semi-amplitude of HD 209458 due to the orbital motion of HD 209458b, in m/s?<br />
<br />
(a) 69.6 m/s<br />
<br />
(b) 85.9 m/s<br />
<br />
(c) 94.2 m/s<br />
<br />
(d) 120.8 m/s<br />
<br />
4. The photon number density of a blackbody depends on temperature as $$n_{d} = a(\frac{k_{B}T}{\hbar_{c}})^{n}$$ where $$k_{B}$$ is the Boltzman constant, $$\hbar$$ is the reduced Planck’s constant, $$c$$ is the speed of light and $$T$$ is the blackbody temperature. Here, $$a$$ is a dimensionless numerical constant. What is the value of $$n$$?<br />
<br />
(a) 1<br />
<br />
(b) 2<br />
<br />
(c) 3<br />
<br />
(d) 4<br />
<br />
5. HD 209458b has a radius of 1.35 Jupiter radii, while the radius of HD 209458 is 1.20 Solar radii. What is the transit depth of HD 209458b, in percent?<br />
<br />
(a) 0.013%<br />
<br />
(b) 0.13%<br />
<br />
(c) 1.3%<br />
<br />
(d) 13%<br />
<br />
6. Which of the following is a problem of the conventional Big Bang theory that is resolved by the theory of inflation?<br />
<br />
(a) Under the conventional Big Bang theory, it is extremely unlikely for our universe to be flat or nearly flat today, contrary to observation.<br />
<br />
(b) Under the conventional Big Bang theory, it is impossible for the Cosmic Microwave Background to have come into thermal equilibrium by the time of recombination, despite its observed uniform temperature.<br />
<br />
(c) The conventional Big Bang theory predicts a huge abundance of magnetic monopoles, while no magnetic monopoles have ever been discovered.<br />
<br />
(d) All of the above<br />
<br />
7. Comet C/2020 F3 (NEOWISE) last reached perihelion on July 3, 2020. Comet NEOWISE has an orbital period of ≈ 4400 years and its eccentricity is 0.99921. What is the perihelion distance of Comet NEOWISE, in AU?<br />
<br />
(a) 0.0123 AU<br />
<br />
(b) 0.212 AU<br />
<br />
(c) 2.69 AU<br />
<br />
(d) 26.8 AU<br />
<br />
8. An astronomer detected a galaxy and decided to analyze its different parts and physical aspects. The frequency generated by a “spin-flip” transition of atomic hydrogen is $$v_{0} = 1420.406MHz$$, however it was detected on the galaxy as $$v = 1422.73$$. He finds that:<br />
<br />
1. Population I stars are (1) and are metal-(2).<br />
<br />
2. The galaxy is (3) from us with a speed of (4) $$km * s^{-1}$$.<br />
<br />
Choose the alternative that correctly completes sentences above.<br />
<br />
(a) (1) young; (2) poor; (3) distancing; (4) 245<br />
<br />
(b) (1) old; (2) rich; (3) approaching; (4) 490<br />
<br />
(c) (1)old; (2) poor; (3) distancing; (4) 490<br />
<br />
(d) (1) young; (2) rich; (3) approaching; (4) 490<br />
<br />
(e) (1) young; (2) rich; (3) approaching; (4) 245<br />
<br />
9. A stable open cluster of about $$N = 1000$$ sun-like stars has an angulardiameter of $$\theta$$ = 30 arc minutes and distance of $$d$$ = 500 pc. Assuming the cluster can be approximated by a sphere of uniform density, estimate the average velocities of stars in the cluster. The gravitational potential energy of a sphere of uniform density and radius $$r$$ is<br />
<br />
$$U_{sphere} = -\frac{3}{5}\frac{GM^{2}_{sphere}}{r}$$<br />
<br />
(a) 507 m/s<br />
<br />
(b) 643 m/s<br />
<br />
(c) 894 m/s<br />
<br />
(d) 1021 m/s<br />
<br />
(e) 771 m/s<br />
<br />
10. What would happen to the analemma of the Sun if the obliquity of the Earth’s orbit suddenly went to zero degrees and its eccentricity remained unchanged?<br />
<br />
(a) The anallema would be perfectly symmetric in both axes and would have the shape of an“8”.<br />
<br />
(b) The analemma would look like a dot.<br />
<br />
(c) The analemma would be the arc of a great circle.<br />
<br />
(d) The analemma would look like a circle.<br />
<br />
(e) The analemma would be a spherical triangle.<br />
<br />
11. Let $$T_{{\odot},C}$$ and $$T_{{\odot},S}$$ be the temperatures at the core and the surface of the sun, respectively. Similarly, let $$T_{A,C}$$ and $$T_{A,S}$$ be the temperatures at the core and surface of the red giant Arcturus, and let $$T_{S,C}$$ and $$T_{S,S}$$ be the temperatures at the core and surface of the white dwarf Sirius B. Which of the following inequalities is true?<br />
<br />
(a) $$\frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{A,C}}{T_{A,S}} < \frac{T_{S,C}}{T_{S,S}}$$<br />
<br />
(b) $$\frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{S,C}}{T_{S,S}} < \frac{T_{A,C}}{T_{A,S}}$$<br />
<br />
(c) $$\frac{T_{A,C}}{T_{A,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{S,C}}{T_{S,S}}$$<br />
<br />
(d) $$\frac{T_{S,C}}{T_{S,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{A,C}}{T_{A,S}}$$<br />
<br />
(e) $$\frac{T_{S,C}}{T_{S,S}} < \frac{T_{A,C}}{T_{A,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}}$$<br />
<br />
12. The spectral line $$H_{\alpha}$$ in the spectrum of a star is recorded as having displacement of $${\Delta}{\lambda} = 0.043 {\times} 10^{-10}$$ m. At rest, the spectral line has a wavelength of $${\lambda}_{0} = 6.536 {\times} 10^{-7}$$ m. Calculate the period of rotation for this star, if it is observed from its equatorial plane. We also know: $$R_{star} = 8 {\times} 10^{5}$$ km.<br />
<br />
(a) 29.59 days<br />
<br />
(b) 14.63 days<br />
<br />
(c) 21.15 days<br />
<br />
(d) 34.39 days<br />
<br />
13. The reflector telescope built by Sir Issac Newton was a f{5 telescope and had a primary mirror of diameter 30mm. He used an eyepiece with a focal length of 5mm. What is the focal length and magnification obtained by this telescope?<br />
<br />
(a) 150mm, 30ˆ<br />
<br />
(b) 300mm, 15ˆ<br />
<br />
(c) 300mm, 30ˆ<br />
<br />
(d) 150mm, 15ˆ<br />
<br />
14.Take a look at the following image:<br />
<br />
[[文件:Usaaao2021 exam1-14.jpg|800px]]<br />
<br />
Three Messier objects are circled in the image. Select the alternative that correctly matches each object with its type.<br />
<br />
(a) 1 - Open cluster; 2 - Open cluster; 3 - Nebula.<br />
<br />
(b) 1 - Open Cluster; 2 - Nebula; 3 - Galaxy.<br />
<br />
(c) 1 - Galaxy; 2 - Nebula; 3 - Globular cluster.<br />
<br />
(d) 1 - Open cluster; 2 - Galaxy; 3 - Globular cluster.<br />
<br />
(e) 1 - Open cluster; 2 - Nebula; 3 - Open cluster.<br />
<br />
15. An interesting phenomena that happens in the Solar System is the capture of comets in the interstellar medium. Assume that a comet with a mass of 7.15 * 10<sup>16</sup> kg is captured by the solar system. The perihelion of this comet’s orbit after it is captured is equal to 4.64 AU, and its velocity with respect to the Sun before being captured by the Solar System was very small. Calculate the velocity of the comet at the perihelion.<br />
<br />
(a) 87.1 km/s<br />
<br />
(b) 45.9 km/s<br />
<br />
(c) 5.67 km/s<br />
<br />
(d) 105.4 km/s<br />
<br />
(e) 19.6 km/s<br />
<br />
16. In a certain day, when it is 0h UT, the sidereal time of Prime Meridian is 5h 56min 9.4s. For this day, with start and end based on UT, find the civil time of Chicago, whose longitude and time zone are respectively, 87.65004722° W and UT-6, when the sidereal time there is 20h. The difference between solar time and sidereal time '''SHOULD''' be accounted for.<br />
<br />
(a) 14h 1min 32s<br />
<br />
(b) 13h 26min 17s<br />
<br />
(c) 14h 36min 47s<br />
<br />
(d) 14h 0min 43s<br />
<br />
(e) 13h 51min 11s<br />
<br />
17. Consider the following horrifying scenario. The Sun has become a Red Giant, and its radius is doubling every 100 years. Rank the following of humanity’s concerns in order of immediate importance.<br />
<br />
I: Orbital decay due to direct contact between the Earth and Sun<br />
<br />
II: As the distance between the Earth and Sun shrinks, the Earth will enter the Sun’s Roche limit and start to be ripped apart<br />
<br />
III: Orbital decay due to tidal effects on the Sun’s outer atmosphere, the same way the Moon loses energy when forming the Earth’s tides<br />
<br />
IV: Runaway greenhouse effect due to extreme temperatures, leading to the Earth becoming a hot, Venus-like planet with no habitability<br />
<br />
(a) III, IV, II, I<br />
<br />
(b) IV, III, II, I<br />
<br />
(c) IV, II, III, I<br />
<br />
(d) IV, III, I, II<br />
<br />
18. TESS Object of Interest (TOI) 402.01 has an orbital period of 4.756 ± 0.000023 (days) and was last observed to transit on 2139.1 ± 0.0027008 (in TESS Julian days, i.e. BJD - 2457000). For follow-up observation, we would like to predict the next transit – this would be the 23rd transit since the last observation. In TESS Julian days, when will the next transit occur?<br />
<br />
(a) 2243.732 ± 0.0027238 TESS JD<br />
<br />
(b) 2248.488 ± 0.000529 TESS JD<br />
<br />
(c) 2248.488 ± 0.0027238 TESS JD<br />
<br />
(d) 2248.488 ± 0.0032298 TESS JD<br />
<br />
19. Jupiter has a mass of 1.90 * 10<sup>27</sup> kg and a radius of 7.15 * 10<sup>7</sup> m. To the closest order of magnitude, estimate the pressure at the center of Jupiter, in Megabars.<br />
<br />
(a) 0.1<br />
<br />
(b) 1<br />
<br />
(c) 10<br />
<br />
(d) 100<br />
<br />
20. Which of the following statements is wrong?<br />
<br />
(a) It is believed that elements with atomic number greater than that of iron are formed mostly by the explosion of supernovas.<br />
<br />
(b) What holds a star together is the hydrostatic equilibrium between pressure and gravity.<br />
<br />
(c) The granulations of the Sun happen on its corona.<br />
<br />
(d) Protostars are actually not stars because their main source of heat is not fusion.<br />
<br />
(e) The earlier type the main-sequence star, the more massive it is.<br />
<br />
21. Consider a horizontal sundial where the triangular gnomon rises at an angle equal to the sundial site's latitude, $${\phi}$$ = 38°. If the area of the triangular gnomon is 2 m<sup>2</sup>, what would be the area of the shadow in $$m^{2}$$ three hours after the noon in the first day of spring (vernal equinox)?<br />
<br />
(a) 3.0<br />
<br />
(b) 3.5<br />
<br />
(c) 2.5<br />
<br />
(d) 1.5<br />
<br />
(e) 4.0<br />
<br />
[[文件:Usaaao2021 exam1-21.jpg|800px]]<br />
<br />
22. Consider an eclipsing binary star system observed (in some fixed band) to have a '''combined''' apparent magnitude of 5.67. During the secondary transit, the second star is totally eclipsed by the first star, and the apparent magnitude dims to 6.28. What percent of the combined flux is produced by the '''second''' star?<br />
<br />
(a) 10.8%<br />
<br />
(b) 43.0%<br />
<br />
(c) 57.0%<br />
<br />
(d) 89.2%<br />
<br />
23. An astronomer observes that a Solar type star has an apparent V magnitude of 6.73 when seen from the Earth. Assuming that the average interstellar extinction in V is 1.00 mag/kpc, determine the distance between this star and the Solar system.<br />
<br />
(a) 11.5 pc<br />
<br />
(b) 49.5 pc<br />
<br />
(c) 34.2 pc<br />
<br />
(d) 23.7 pc<br />
<br />
(e) 18.9 pc<br />
<br />
24. 1. The temperature of the Sun is 5000K while that of Sirius is 10000K. Which star has a higher integrated radiance i.e. net energy emitted per unit time per unit area?<br />
<br />
(a) Sun<br />
<br />
(b) Sirius<br />
<br />
(c) Depends on value of the respective radii<br />
<br />
(d) The integrated radiance is equal.<br />
<br />
25. Suppose a spaceship is attempting a slingshot maneuver on a gas giant with mass 100 times that of the spaceship. Because the spaceship somewhat entered the planet’s atmosphere, kinetic energy was not conserved—only momentum. What is the ratio of the spaceship’s change in velocity to the planet’s change in velocity, $$\frac{{\Delta}v_{s}}{{\Delta}v_{p}}$$?<br />
<br />
(a) 10<br />
<br />
(b) 100<br />
<br />
(c) -10<br />
<br />
(d) -100<br />
<br />
26. Let’s imagine that our Universe would be filled with basketballs, each having a mass of $$m_{b}$$ = 0.62 kg. What would be the necessary numerical density ($$n_{b}$$) of basketballs in the Universe such that the mass density of the basketballs would equal the current critical density of our Universe?<br />
<br />
(a) 1.5 * 10<sup>-26</sup> balls/$$m_{3}$$<br />
<br />
(b) 1.7 * 10<sup>26</sup> balls/$$m_{3}$$<br />
<br />
(c) 1.5 * 10<sup>-27</sup> balls/$$m_{3}$$<br />
<br />
(d) 1.7 * 10<sup>27</sup> balls/$$m_{3}$$<br />
<br />
27. When binary systems are really close together, they can execute an accretion process, in which one star (called the primary star) ”eats” the mass of the other (called the secondary star), whose mass spirals down into the primary star, creating an accretion disk!<br />
<br />
For an accretion disk with the outer edge 3R from the center of the primary star (radius R and mass M), calculate the energy lost by a test mass (mass m) where it touches the primary star from where it first enters the accretion disk.<br />
<br />
Consider the orbits to be Keplerian.<br />
<br />
(a)$$\frac{GMm}{R}$$<br />
<br />
(b)$$\frac{1}{2}\frac{GMm}{R}$$<br />
<br />
(c)$$\frac{2}{5}\frac{GMm}{R}$$<br />
<br />
(d)$$\frac{2}{3}\frac{GMm}{R}$$<br />
<br />
(e)$$\frac{3}{4}\frac{GMm}{R}$$<br />
<br />
28. An often-repeated fun fact is that humans produce more power per unit volume than stars. If the sun were the same size, but it produced the same amount of power per unit volume as a human, what would its surface temperature be? Assume the “average human” produces 100 watts of power and has a volume of 66400 cubic centimeters.<br />
<br />
(a) 3500 K<br />
<br />
(b) 10000 K<br />
<br />
(c) 25000 K<br />
<br />
(d) 40000 K<br />
<br />
(e) 50000 K<br />
<br />
29. Given that the redshift of cosmic microwave background (CMB) is 1100, what was the temperature of the Universe when photon decoupled from matter and neutral hydrogen started to get formed? The present temperature of the CMB is 2.73 K.<br />
<br />
(a) 10000 K<br />
<br />
(b) 30000 K<br />
<br />
(c) 3000 K<br />
<br />
(d) 1000 K<br />
<br />
(e) 300 K<br />
<br />
30. Where and when should we place a radio telescope such that, when combined with a radio telescope on Earth, the system could ”see” the supermassive black hole in Sculptor’s Galaxy (NGC253)?<br />
<br />
Sculptor’s Galaxy’s supermassive black hole’s mass is estimated to be around 5• 10<sup>6</sup>$$M_{\odot}$$, and its distance is estimated to be around 3.5 Mpc.<br />
<br />
Out of the options below, pick the one closest to the estimate you obtain, rounding up. Consider the energy of a radio wave to be around 10<sup>-5</sup> eV.<br />
<br />
Use the following formula to estimate the angular resolution:$${\theta}=\frac{\lambda}{D}$$<br />
<br />
(a) On the Moon when it is at its apogee.<br />
<br />
(b) On Mars when it is in conjunction.<br />
<br />
(c) On Venus when it is in its greatest elongation.<br />
<br />
(d) On one of Jupiter’s moons when it is in opposition.<br />
<br />
(e) Somewhere in the farthest points of the Oort cloud when Earth is at its perihelion.<br />
<br />
==翻译==<br />
<br />
1.2020年12月21日, 木星在$$(\alpha,\delta)=(20^{h}10^{m},-20°34′)$$。土星在哪个星座?<br />
<br />
(a) 摩羯座<br />
<br />
(b) 宝瓶座<br />
<br />
(c) 双鱼座<br />
<br />
(d) 天鹰座<br />
<br />
2.光度5.86 * 10<sup>26</sup> W,半径8.51 * 10<sup>8</sup>m的恒星光谱型是什么?<br />
<br />
(a) A<br />
<br />
(b) F<br />
<br />
(c) G<br />
<br />
(d) K<br />
<br />
(e) M<br />
<br />
3.系外行星HD209458b质量是0.71倍木星质量,绕HD209458的公转周期是3.53天。HD209458质量是1.15倍太阳质量。假设它的公转轨道是圆轨道且恰好能被我们观测到,HD209458由HD209458b公转产生的径向速度的半振幅是多少?<br />
<br />
(a) 69.6m/s<br />
<br />
(b) 85.9m/s<br />
<br />
(c) 94.2m/s<br />
<br />
(d) 120.8m/s<br />
<br />
4.黑体的光子数密度和温度的关系:$$n_{d} = a(\frac{k_{B}T}{\hbar_{c}})^{n}$$,其中$$k_{B}$$是玻尔兹曼常数,$$\hbar$$是约化普朗克常数,$$c$$是光速,$$T$$是黑体的温度。$$a$$是一个无量纲的常数。$$n$$的值是多少?<br />
<br />
(a) 1<br />
<br />
(b) 2<br />
<br />
(c) 3<br />
<br />
(d) 4<br />
<br />
5.HD209458b的半径是木星的1.35倍,HD209458的半径是太阳的1.20倍,HD209458b的掩食深度是多少?<br />
<br />
(a) 0.013%<br />
<br />
(b) 0.13%<br />
<br />
(c) 1.3%<br />
<br />
(d) 13%<br />
<br />
6.关于大爆炸理论,以下哪项是正确的?<br />
<br />
(a)在大爆炸理论下,我们的宇宙不可能是平坦的或接近平坦的,这与观测结果相符。<br />
<br />
(b)在大爆炸理论下,复合前宇宙微波背景辐射达到热平衡是不可能的,尽管我们今天观测已经达到热平衡。<br />
<br />
(c)大爆炸理论预言有大量磁单极粒子,但我们还没有观测到它。<br />
<br />
(d)以上都对<br />
<br />
7.彗星C/2020 F3(NEOWISE)于2020年6月3日到达近日点。NEOWISE的周期是4400年,轨道偏心率是0.99921。它的近日距是多少?<br />
<br />
(a) 0.0123AU<br />
<br />
(b) 0.212AU<br />
<br />
(c) 2.69AU<br />
<br />
(d) 26.8AU<br />
<br />
8.一位天文学家发现了一个星系并决定分析它不同的部分。氢原子的自旋翻转跃迁的频率$$v_{0} = 1420.406MHz$$,在这个星系中被观测到$$v=1422.73MHz$$。<br />
<br />
1. 星族I恒星(1),它们含有(2)金属。<br />
<br />
2. 这个星系正在(3)我们,它的速度是(4)$$km*s^{-1}$$。<br />
<br />
(a) (1)年轻;(2)很少;(3)远离;(4)245<br />
<br />
(b) (1)年老;(2)很多;(3)靠近;(4)490<br />
<br />
(c) (1)年老;(2)很少;(3)远离;(4)490<br />
<br />
(d) (1)年轻;(2)很多;(3)靠近;(4)490<br />
<br />
(e) (1)您请;(2)很多;(3)靠近;(4)245<br />
<br />
9. 一个稳定的疏散星国有大约$$N = 1000$$个太阳这样的恒星,它的视直径$$\theta = 30’$$,距离$$d$$=500pc。假设这个星国可以近似成一个分布均匀的球,估计这个星团中恒星的平均速度。密度均匀的球的半径$$r$$与引力势能存在以下关系:<br />
<br />
$$U_{sphere} = -\frac{3}{5}\frac{GM^{2}_{sphere}}{r}$$<br />
<br />
(a) 507 m/s<br />
<br />
(b) 643 m/s<br />
<br />
(c) 894 m/s<br />
<br />
(d) 1021 m/s<br />
<br />
(e) 771 m/s</div>Dg1200https://www.astro-init.top/index.php?title=2021USAAAO%E9%A2%84%E8%B5%9B%E9%80%89%E6%8B%A9%E9%A2%98&diff=24552021USAAAO预赛选择题2023-03-28T04:04:18Z<p>Dg1200:</p>
<hr />
<div>==题目==<br />
<br />
1. On December 21, 2020, Jupiter was at $$(\alpha,\delta)=(20^{h}10^{m},-20°34′)$$. Which constellation was Saturn in?<br />
<br />
(a) Capricornus<br />
<br />
(b) Aquarius<br />
<br />
(c) Pisces<br />
<br />
(d) Aquila<br />
<br />
2. What is the spectral type of a star with a luminosity of 5.86 * 10<sup>26</sup> W and radius of 8.51 * 10<sup>8</sup> m?<br />
<br />
(a) A<br />
<br />
(b) F<br />
<br />
(c) G<br />
<br />
(d) K<br />
<br />
(e) M<br />
<br />
3. The exoplanet HD 209458b has a mass of 0.71 Jupiter masses and orbits HD 209458 with an orbital period of 3.53 days. HD 209458 has a mass of 1.15 Solar masses. Assuming that the orbit of HD 209458b is circular (which is a good approximation here) and that its orbit lies perfectly in our line of sight, what is the radial velocity semi-amplitude of HD 209458 due to the orbital motion of HD 209458b, in m/s?<br />
<br />
(a) 69.6 m/s<br />
<br />
(b) 85.9 m/s<br />
<br />
(c) 94.2 m/s<br />
<br />
(d) 120.8 m/s<br />
<br />
4. The photon number density of a blackbody depends on temperature as $$n_{d} = a(\frac{k_{B}T}{\hbar_{c}})^{n}$$ where $$k_{B}$$ is the Boltzman constant, $$\hbar$$ is the reduced Planck’s constant, $$c$$ is the speed of light and $$T$$ is the blackbody temperature. Here, $$a$$ is a dimensionless numerical constant. What is the value of $$n$$?<br />
<br />
(a) 1<br />
<br />
(b) 2<br />
<br />
(c) 3<br />
<br />
(d) 4<br />
<br />
5. HD 209458b has a radius of 1.35 Jupiter radii, while the radius of HD 209458 is 1.20 Solar radii. What is the transit depth of HD 209458b, in percent?<br />
<br />
(a) 0.013%<br />
<br />
(b) 0.13%<br />
<br />
(c) 1.3%<br />
<br />
(d) 13%<br />
<br />
6. Which of the following is a problem of the conventional Big Bang theory that is resolved by the theory of inflation?<br />
<br />
(a) Under the conventional Big Bang theory, it is extremely unlikely for our universe to be flat or nearly flat today, contrary to observation.<br />
<br />
(b) Under the conventional Big Bang theory, it is impossible for the Cosmic Microwave Background to have come into thermal equilibrium by the time of recombination, despite its observed uniform temperature.<br />
<br />
(c) The conventional Big Bang theory predicts a huge abundance of magnetic monopoles, while no magnetic monopoles have ever been discovered.<br />
<br />
(d) All of the above<br />
<br />
7. Comet C/2020 F3 (NEOWISE) last reached perihelion on July 3, 2020. Comet NEOWISE has an orbital period of ≈ 4400 years and its eccentricity is 0.99921. What is the perihelion distance of Comet NEOWISE, in AU?<br />
<br />
(a) 0.0123 AU<br />
<br />
(b) 0.212 AU<br />
<br />
(c) 2.69 AU<br />
<br />
(d) 26.8 AU<br />
<br />
8. An astronomer detected a galaxy and decided to analyze its different parts and physical aspects. The frequency generated by a “spin-flip” transition of atomic hydrogen is $$v_{0} = 1420.406MHz$$, however it was detected on the galaxy as $$v = 1422.73$$. He finds that:<br />
<br />
1. Population I stars are (1) and are metal-(2).<br />
<br />
2. The galaxy is (3) from us with a speed of (4) $$km * s^{-1}$$.<br />
<br />
Choose the alternative that correctly completes sentences above.<br />
<br />
(a) (1) young; (2) poor; (3) distancing; (4) 245<br />
<br />
(b) (1) old; (2) rich; (3) approaching; (4) 490<br />
<br />
(c) (1)old; (2) poor; (3) distancing; (4) 490<br />
<br />
(d) (1) young; (2) rich; (3) approaching; (4) 490<br />
<br />
(e) (1) young; (2) rich; (3) approaching; (4) 245<br />
<br />
9. A stable open cluster of about $$N = 1000$$ sun-like stars has an angulardiameter of $$\theta$$ = 30 arc minutes and distance of $$d$$ = 500 pc. Assuming the cluster can be approximated by a sphere of uniform density, estimate the average velocities of stars in the cluster. The gravitational potential energy of a sphere of uniform density and radius $$r$$ is<br />
<br />
$$U_{sphere} = -\frac{3}{5}\frac{GM^{2}_{sphere}}{r}$$<br />
<br />
(a) 507 m/s<br />
<br />
(b) 643 m/s<br />
<br />
(c) 894 m/s<br />
<br />
(d) 1021 m/s<br />
<br />
(e) 771 m/s<br />
<br />
10. What would happen to the analemma of the Sun if the obliquity of the Earth’s orbit suddenly went to zero degrees and its eccentricity remained unchanged?<br />
<br />
(a) The anallema would be perfectly symmetric in both axes and would have the shape of an“8”.<br />
<br />
(b) The analemma would look like a dot.<br />
<br />
(c) The analemma would be the arc of a great circle.<br />
<br />
(d) The analemma would look like a circle.<br />
<br />
(e) The analemma would be a spherical triangle.<br />
<br />
11. Let $$T_{{\odot},C}$$ and $$T_{{\odot},S}$$ be the temperatures at the core and the surface of the sun, respectively. Similarly, let $$T_{A,C}$$ and $$T_{A,S}$$ be the temperatures at the core and surface of the red giant Arcturus, and let $$T_{S,C}$$ and $$T_{S,S}$$ be the temperatures at the core and surface of the white dwarf Sirius B. Which of the following inequalities is true?<br />
<br />
(a) $$\frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{A,C}}{T_{A,S}} < \frac{T_{S,C}}{T_{S,S}}$$<br />
<br />
(b) $$\frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{S,C}}{T_{S,S}} < \frac{T_{A,C}}{T_{A,S}}$$<br />
<br />
(c) $$\frac{T_{A,C}}{T_{A,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{S,C}}{T_{S,S}}$$<br />
<br />
(d) $$\frac{T_{S,C}}{T_{S,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}} < \frac{T_{A,C}}{T_{A,S}}$$<br />
<br />
(e) $$\frac{T_{S,C}}{T_{S,S}} < \frac{T_{A,C}}{T_{A,S}} < \frac{T_{{\odot},C}}{T_{{\odot},S}}$$<br />
<br />
12. The spectral line $$H_{\alpha}$$ in the spectrum of a star is recorded as having displacement of $${\Delta}{\lambda} = 0.043 {\times} 10^{-10}$$ m. At rest, the spectral line has a wavelength of $${\lambda}_{0} = 6.536 {\times} 10^{-7}$$ m. Calculate the period of rotation for this star, if it is observed from its equatorial plane. We also know: $$R_{star} = 8 {\times} 10^{5}$$ km.<br />
<br />
(a) 29.59 days<br />
<br />
(b) 14.63 days<br />
<br />
(c) 21.15 days<br />
<br />
(d) 34.39 days<br />
<br />
13. The reflector telescope built by Sir Issac Newton was a f{5 telescope and had a primary mirror of diameter 30mm. He used an eyepiece with a focal length of 5mm. What is the focal length and magnification obtained by this telescope?<br />
<br />
(a) 150mm, 30ˆ<br />
<br />
(b) 300mm, 15ˆ<br />
<br />
(c) 300mm, 30ˆ<br />
<br />
(d) 150mm, 15ˆ<br />
<br />
14.Take a look at the following image:<br />
<br />
[[文件:Usaaao2021 exam1-14.jpg|800px]]<br />
<br />
Three Messier objects are circled in the image. Select the alternative that correctly matches each object with its type.<br />
<br />
(a) 1 - Open cluster; 2 - Open cluster; 3 - Nebula.<br />
<br />
(b) 1 - Open Cluster; 2 - Nebula; 3 - Galaxy.<br />
<br />
(c) 1 - Galaxy; 2 - Nebula; 3 - Globular cluster.<br />
<br />
(d) 1 - Open cluster; 2 - Galaxy; 3 - Globular cluster.<br />
<br />
(e) 1 - Open cluster; 2 - Nebula; 3 - Open cluster.<br />
<br />
15. An interesting phenomena that happens in the Solar System is the capture of comets in the interstellar medium. Assume that a comet with a mass of 7.15 * 10<sup>16</sup> kg is captured by the solar system. The perihelion of this comet’s orbit after it is captured is equal to 4.64 AU, and its velocity with respect to the Sun before being captured by the Solar System was very small. Calculate the velocity of the comet at the perihelion.<br />
<br />
(a) 87.1 km/s<br />
<br />
(b) 45.9 km/s<br />
<br />
(c) 5.67 km/s<br />
<br />
(d) 105.4 km/s<br />
<br />
(e) 19.6 km/s<br />
<br />
16. In a certain day, when it is 0h UT, the sidereal time of Prime Meridian is 5h 56min 9.4s. For this day, with start and end based on UT, find the civil time of Chicago, whose longitude and time zone are respectively, 87.65004722° W and UT-6, when the sidereal time there is 20h. The difference between solar time and sidereal time '''SHOULD''' be accounted for.<br />
<br />
(a) 14h 1min 32s<br />
<br />
(b) 13h 26min 17s<br />
<br />
(c) 14h 36min 47s<br />
<br />
(d) 14h 0min 43s<br />
<br />
(e) 13h 51min 11s<br />
<br />
17. Consider the following horrifying scenario. The Sun has become a Red Giant, and its radius is doubling every 100 years. Rank the following of humanity’s concerns in order of immediate importance.<br />
<br />
I: Orbital decay due to direct contact between the Earth and Sun<br />
<br />
II: As the distance between the Earth and Sun shrinks, the Earth will enter the Sun’s Roche limit and start to be ripped apart<br />
<br />
III: Orbital decay due to tidal effects on the Sun’s outer atmosphere, the same way the Moon loses energy when forming the Earth’s tides<br />
<br />
IV: Runaway greenhouse effect due to extreme temperatures, leading to the Earth becoming a hot, Venus-like planet with no habitability<br />
<br />
(a) III, IV, II, I<br />
<br />
(b) IV, III, II, I<br />
<br />
(c) IV, II, III, I<br />
<br />
(d) IV, III, I, II<br />
<br />
18. TESS Object of Interest (TOI) 402.01 has an orbital period of 4.756 ± 0.000023 (days) and was last observed to transit on 2139.1 ± 0.0027008 (in TESS Julian days, i.e. BJD - 2457000). For follow-up observation, we would like to predict the next transit – this would be the 23rd transit since the last observation. In TESS Julian days, when will the next transit occur?<br />
<br />
(a) 2243.732 ± 0.0027238 TESS JD<br />
<br />
(b) 2248.488 ± 0.000529 TESS JD<br />
<br />
(c) 2248.488 ± 0.0027238 TESS JD<br />
<br />
(d) 2248.488 ± 0.0032298 TESS JD<br />
<br />
19. Jupiter has a mass of 1.90 * 10<sup>27</sup> kg and a radius of 7.15 * 10<sup>7</sup> m. To the closest order of magnitude, estimate the pressure at the center of Jupiter, in Megabars.<br />
<br />
(a) 0.1<br />
<br />
(b) 1<br />
<br />
(c) 10<br />
<br />
(d) 100<br />
<br />
20. Which of the following statements is wrong?<br />
<br />
(a) It is believed that elements with atomic number greater than that of iron are formed mostly by the explosion of supernovas.<br />
<br />
(b) What holds a star together is the hydrostatic equilibrium between pressure and gravity.<br />
<br />
(c) The granulations of the Sun happen on its corona.<br />
<br />
(d) Protostars are actually not stars because their main source of heat is not fusion.<br />
<br />
(e) The earlier type the main-sequence star, the more massive it is.<br />
<br />
21. Consider a horizontal sundial where the triangular gnomon rises at an angle equal to the sundial site's latitude, $${\phi}$$ = 38°. If the area of the triangular gnomon is 2 m<sup>2</sup>, what would be the area of the shadow in $$m^{2}$$ three hours after the noon in the first day of spring (vernal equinox)?<br />
<br />
(a) 3.0<br />
<br />
(b) 3.5<br />
<br />
(c) 2.5<br />
<br />
(d) 1.5<br />
<br />
(e) 4.0<br />
<br />
[[文件:Usaaao2021 exam1-21.jpg|800px]]<br />
<br />
22. Consider an eclipsing binary star system observed (in some fixed band) to have a '''combined''' apparent magnitude of 5.67. During the secondary transit, the second star is totally eclipsed by the first star, and the apparent magnitude dims to 6.28. What percent of the combined flux is produced by the '''second''' star?<br />
<br />
(a) 10.8%<br />
<br />
(b) 43.0%<br />
<br />
(c) 57.0%<br />
<br />
(d) 89.2%<br />
<br />
23. An astronomer observes that a Solar type star has an apparent V magnitude of 6.73 when seen from the Earth. Assuming that the average interstellar extinction in V is 1.00 mag/kpc, determine the distance between this star and the Solar system.<br />
<br />
(a) 11.5 pc<br />
<br />
(b) 49.5 pc<br />
<br />
(c) 34.2 pc<br />
<br />
(d) 23.7 pc<br />
<br />
(e) 18.9 pc<br />
<br />
24. 1. The temperature of the Sun is 5000K while that of Sirius is 10000K. Which star has a higher integrated radiance i.e. net energy emitted per unit time per unit area?<br />
<br />
(a) Sun<br />
<br />
(b) Sirius<br />
<br />
(c) Depends on value of the respective radii<br />
<br />
(d) The integrated radiance is equal.<br />
<br />
25. Suppose a spaceship is attempting a slingshot maneuver on a gas giant with mass 100 times that of the spaceship. Because the spaceship somewhat entered the planet’s atmosphere, kinetic energy was not conserved—only momentum. What is the ratio of the spaceship’s change in velocity to the planet’s change in velocity, $$\frac{{\Delta}v_{s}}{{\Delta}v_{p}}$$?<br />
<br />
(a) 10<br />
<br />
(b) 100<br />
<br />
(c) -10<br />
<br />
(d) -100<br />
<br />
26. Let’s imagine that our Universe would be filled with basketballs, each having a mass of $$m_{b}$$ = 0.62 kg. What would be the necessary numerical density ($$n_{b}$$) of basketballs in the Universe such that the mass density of the basketballs would equal the current critical density of our Universe?<br />
<br />
(a) 1.5 * 10<sup>-26</sup> balls/$$m_{3}$$<br />
<br />
(b) 1.7 * 10<sup>26</sup> balls/$$m_{3}$$<br />
<br />
(c) 1.5 * 10<sup>-27</sup> balls/$$m_{3}$$<br />
<br />
(d) 1.7 * 10<sup>27</sup> balls/$$m_{3}$$<br />
<br />
27. When binary systems are really close together, they can execute an accretion process, in which one star (called the primary star) ”eats” the mass of the other (called the secondary star), whose mass spirals down into the primary star, creating an accretion disk!<br />
<br />
For an accretion disk with the outer edge 3R from the center of the primary star (radius R and mass M), calculate the energy lost by a test mass (mass m) where it touches the primary star from where it first enters the accretion disk.<br />
<br />
Consider the orbits to be Keplerian.<br />
<br />
(a)$$\frac{GMm}{R}$$<br />
<br />
(b)$$\frac{1}{2}\frac{GMm}{R}$$<br />
<br />
(c)$$\frac{2}{5}\frac{GMm}{R}$$<br />
<br />
(d)$$\frac{2}{3}\frac{GMm}{R}$$<br />
<br />
(e)$$\frac{3}{4}\frac{GMm}{R}$$<br />
<br />
28. An often-repeated fun fact is that humans produce more power per unit volume than stars. If the sun were the same size, but it produced the same amount of power per unit volume as a human, what would its surface temperature be? Assume the “average human” produces 100 watts of power and has a volume of 66400 cubic centimeters.<br />
<br />
(a) 3500 K<br />
<br />
(b) 10000 K<br />
<br />
(c) 25000 K<br />
<br />
(d) 40000 K<br />
<br />
(e) 50000 K<br />
<br />
29. Given that the redshift of cosmic microwave background (CMB) is 1100, what was the temperature of the Universe when photon decoupled from matter and neutral hydrogen started to get formed? The present temperature of the CMB is 2.73 K.<br />
<br />
(a) 10000 K<br />
<br />
(b) 30000 K<br />
<br />
(c) 3000 K<br />
<br />
(d) 1000 K<br />
<br />
(e) 300 K<br />
<br />
30. Where and when should we place a radio telescope such that, when combined with a radio telescope on Earth, the system could ”see” the supermassive black hole in Sculptor’s Galaxy (NGC253)?<br />
<br />
Sculptor’s Galaxy’s supermassive black hole’s mass is estimated to be around 5• 10<sup>6</sup>$$M_{\odot}$$, and its distance is estimated to be around 3.5 Mpc.<br />
<br />
Out of the options below, pick the one closest to the estimate you obtain, rounding up. Consider the energy of a radio wave to be around 10<sup>-5</sup> eV.<br />
<br />
Use the following formula to estimate the angular resolution:$${\theta}=\frac{\lambda}{D}$$<br />
<br />
(a) On the Moon when it is at its apogee.<br />
<br />
(b) On Mars when it is in conjunction.<br />
<br />
(c) On Venus when it is in its greatest elongation.<br />
<br />
(d) On one of Jupiter’s moons when it is in opposition.<br />
<br />
(e) Somewhere in the farthest points of the Oort cloud when Earth is at its perihelion.<br />
<br />
==翻译==<br />
<br />
1.2020年12月21日, 木星在$$(\alpha,\delta)=(20^{h}10^{m},-20°34′)$$。土星在哪个星座?<br />
<br />
(a) 摩羯座<br />
<br />
(b) 宝瓶座<br />
<br />
(c) 双鱼座<br />
<br />
(d) 天鹰座<br />
<br />
2.光度5.86 * 10<sup>26</sup> W,半径8.51 * 10<sup>8</sup>m的恒星光谱型是什么?<br />
<br />
(a) A<br />
<br />
(b) F<br />
<br />
(c) G<br />
<br />
(d) K<br />
<br />
(e) M<br />
<br />
3.系外行星HD209458b质量是0.71倍木星质量,绕HD209458的公转周期是3.53天。HD209458质量是1.15倍太阳质量。假设它的公转轨道是圆轨道且恰好能被我们观测到,HD209458由HD209458b公转产生的径向速度的半振幅是多少?<br />
<br />
(a) 69.6m/s<br />
<br />
(b) 85.9m/s<br />
<br />
(c) 94.2m/s<br />
<br />
(d) 120.8m/s<br />
<br />
4.黑体的光子数密度和温度的关系:$$n_{d} = a(\frac{k_{B}T}{\hbar_{c}})^{n}$$,其中$$k_{B}$$是玻尔兹曼常数,$$\hbar$$是约化普朗克常数,$$c$$是光速,$$T$$是黑体的温度。$$a$$是一个无量纲的常数。$$n$$的值是多少?<br />
<br />
(a) 1<br />
<br />
(b) 2<br />
<br />
(c) 3<br />
<br />
(d) 4<br />
<br />
5.HD209458b的半径是木星的1.35倍,HD209458的半径是太阳的1.20倍,HD209458b的掩食深度是多少?<br />
<br />
(a) 0.013%<br />
<br />
(b) 0.13%<br />
<br />
(c) 1.3%<br />
<br />
(d) 13%<br />
<br />
6.关于大爆炸理论,以下哪项是正确的?<br />
<br />
(a)在大爆炸理论下,我们的宇宙不可能是平坦的或接近平坦的,这与观测结果相符。<br />
<br />
(b)在大爆炸理论下,复合前宇宙微波背景辐射达到热平衡是不可能的,尽管我们今天观测已经达到热平衡。<br />
<br />
(c)大爆炸理论预言有大量磁单极粒子,但我们还没有观测到它。<br />
<br />
(d)以上都对<br />
<br />
7.彗星C/2020 F3(NEOWISE)于2020年6月3日到达近日点。NEOWISE的周期是4400年,轨道偏心率是0.99921。它的近日距是多少?<br />
<br />
(a) 0.0123AU<br />
<br />
(b) 0.212AU<br />
<br />
(c) 2.69AU<br />
<br />
(d) 26.8AU<br />
<br />
8.一位天文学家发现了一个星系并决定分析它不同的部分。氢原子的自旋翻转跃迁的频率$$v_{0} = 1420.406MHz$$,在这个星系中被观测到$$v=1422.73MHz$$。<br />
<br />
1. 星族I恒星(1),它们含有(2)金属。<br />
<br />
2. 这个星系正在(3)我们,它的速度是(4)$$km*s^{-1}$$。<br />
<br />
(a) (1)年轻;(2)很少;(3)远离;(4)245<br />
<br />
(b) (1)年老;(2)很多;(3)靠近;(4)490<br />
<br />
(c) (1)年老;(2)很少;(3)远离;(4)490<br />
<br />
(d) (1)年轻;(2)很多;(3)靠近;(4)490<br />
<br />
(e) (1)您请;(2)很多;(3)靠近;(4)245<br />
<br />
9. 一个稳定的疏散星国有大约$$N = 1000$$个太阳这样的恒星,它的视直径$$\theta$$ =30”,距离$$d$$=500pc。假设这个星国可以近似成一个分布均匀的球,估计这个星团中恒星的平均速度。密度均匀的球的半径$$r$$与引力势能存在以下关系:<br />
<br />
$$U_{sphere} = -\frac{3}{5}\frac{GM^{2}_{sphere}}{r}$$<br />
<br />
(a) 507 m/s<br />
<br />
(b) 643 m/s<br />
<br />
(c) 894 m/s<br />
<br />
(d) 1021 m/s<br />
<br />
(e) 771 m/s</div>Dg1200https://www.astro-init.top/index.php?title=CNAO2023&diff=2454CNAO20232023-03-28T02:45:33Z<p>Dg1200:</p>
<hr />
<div>2022-2023全国中学生天文知识竞赛预赛将于2023年4月1日举行<br />
<br />
==相关链接==<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c13686329d57018634b06733000c.shtml(预赛考点征集)<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c1368694762d018695cee94a0026.shtml(预赛报名通知)<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c13686d768d80186d89eef9d000c.shtml(预赛结果报名公示)</div>Dg1200https://www.astro-init.top/index.php?title=CNAO2023&diff=2453CNAO20232023-03-28T02:45:04Z<p>Dg1200:</p>
<hr />
<div>2022-2023全国中学生天文知识竞赛预赛将于2023年4月1日举行<br />
<br />
[[相关链接]]<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c13686329d57018634b06733000c.shtml(预赛考点征集)<br />
<br />
https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c1368694762d018695cee94a0026.shtml(预赛报名通知)<br />
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https://www.bjp.org.cn/qgzxstwzsjs/asdt/4028c13686d768d80186d89eef9d000c.shtml(预赛结果报名公示)</div>Dg1200https://www.astro-init.top/index.php?title=CNAO2023&diff=2452CNAO20232023-03-28T02:41:32Z<p>Dg1200:创建页面,内容为“2022-2023全国中学生天文知识竞赛预赛将于2023年4月1日举行”</p>
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<div>2022-2023全国中学生天文知识竞赛预赛将于2023年4月1日举行</div>Dg1200